BSc/MSc Thesis Projects

Welcome! If you are looking for a topic for your BSc and/or MSc thesis, you are at the right place: we have a wide variety of research topics in which you can actively participate and contribute to the development of 21th century science! Below you will find a description of ongoing research projects within the Laboratory of Organic Chemistry (ORC) in which you can participate for your BSc and/or MSc thesis. If you already have a fair idea in which direction you would like to continue your thesis research, please contact the most relevant ORC faculty member. If you do not have a very specific idea yet, then please contact Dr. Simone Ruggeri or Dr. Fedor Miloserdov for further information. Very much looking forward to YOUR contribution!

Prof.dr Han Zuilhof

Sulfonimidoyl fluorides as serine protease inhibitors, covalent attachment of hydrosilane derivatives onto different substrates, silicon for sensing of metal ions (health) and solar cell (energy), click it exploring new possibilities with si-free sufex reactions, dr maarten smulders, overview research opportunities dynamic polymers group, dynamic boronic ester materials (simon), dynamic diels-alder polymers (simon), self‐healable non‐isocyanate polyurethane via dynamic da chemistry (sagar), development of stable and antifouling coatings (zhen), development of smart, antifouling polymer coatings (lucas), smart materials dynamic imine materials (sybren), dr bauke albada, development of bispecific antibodies, next-generation strained alkynes for copper-free click chemistry, synthetic peptides that boost plant regeneration, dr louis de smet, removal advanced materials for electro-driven ion separation, porous nanomaterials for selective gas sensor devices, ion selective sensor devices, selectively separating li+ ions from aqueous solutions, functionalized ion-exchange membrane for na+ selectivity, electro-driven, ion-selective removal, dr fedor miloserdov, streamlined synthetic approach toward dehydrosecodine, study of ru(0)-catalyzed cross-coupling reactions, sufex-based sequence-defined oligomers, synthesis and catalysis of cationic ru-diphosphine complexes, synthesis of artificial library of lignin oligomers, dr guanna li, understanding suphenex/sufex reaction processes by high-throughput modeling, computational study of ru(0), dr gert salentijn, towards portable mycotoxin detection by selective paper-enhanced infrared spectroscopy (s-peirs), enhancing smart paper-based devices through polymer integration, employing paper-microfluidics and mass spectrometry for on-site plant toxin detection, detection of macronutrients content in dried human milk spots using paper-based mid-infrared spectroscopy, dr laura righetti, analysis of pyrrolizidine alkaloids in jacobaea species, factors affecting mycotoxins in sorghum produced in ethiopia, determine where cyanobacterial toxins accumulate in irrigated crops, identification of natural antibiotic compounds produced by rhizosphere bacteria from the algerian desert, dr francesco simone ruggeri, pushing the boundaries: comparative exploration of amyloid fibril formation in food animal and plant proteins, tau protein condensation in disease, spectroscopic and microscopic analysis of dna-protein interactions, protein condensation in plants: a thermosensing mechanism, unravel chirality of single polymer chains.

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Home > Chemistry > CHEMISTRYDISS

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Chemistry department: dissertations, theses, and student research.

Halide Exchange and Transport in Halide Perovskite Lattices , Temban Acha Billy

Synthesis and Study of High-Spin Stable Organic Radicals for Electrical Conductors and Mannosamine Nitroxide for MRI Contrast Agents , Shuyang Zhang

Designing Experiments: The Impact of Peer Review Structure on Organic Chemistry Students' Experimental Designs , Katie Patterson

Study of halide gradient formation via solution-solid halide exchange in crystalline CH 3 NH 3 PbBr 3 thin films , Behnaz Akbari

Oxygen Binding Thermodynamics of Human Hemoglobin in the Red Blood Cell , Kyle K. Hill

Developing Techniques for the Identification of Non-Canonical RNA Pairing and Analysis of LC-MS Datasets , Christopher Jurich

Surface Functionalization of Elastomers for Tunable Crystal Growth and Smart Adhesives , John Kapitan

Issue of False Amphetamine Field Test Positives Caused By Sugar. Use of Baeyer Test as a Secondary Test Solution. , Reed A. Knutson, Jennah Duncan, Kara Peightal, and Samuel Thomas

Harnessing Surface Chemistry and Instabilities in Silicone Elastomers to Synthesize Adaptive Systems with Mechanically Tunable Surface Properties and Functionality , Ali Jamal Mazaltarim

How Oxygen-Binding Affects Structural Evolution of Even-Sized Gold Anion Clusters. (Size Range 20 to 34) , David Brunken-Deibert

Analysis of Hydroxychloroquine Interaction with Serum Proteins by High Performance Affinity Chromatography , Kyungah Suh, Sadia Sharmeen, and David S. Hage

The Application and Development of Metabolomics Methodologies for the Profiling of Food and Cellular Toxicity , Jade Woods

Evaluation of the Overall Binding of Acetohexamide and Tolbutamide with Methyl Glyoxal-Modified HSA by High-Performance Affinity Chromatography , Ashley G. Woolfork and David S. Hage

C(sp2)-C(sp3) Cross-Coupling of Aryl Halides and Active C(sp3)-H Bonds via Dual Catalysis: Organic Photocatalysis/Nickel Redox Catalysis , Nicholas Armada

Phosphonate-Directed Catalytic Asymmetric Hydroboration: Synthesis of Functionalized Chiral Secondary and Tertiary Boronic Esters and Mechanistic Insights , Suman Chakrabarty

COMPUTATIONAL STUDIES OF THERMAL PROPERTIES AND DESALINATION PERFORMANCE OF LOW-DIMENSIONAL MATERIALS , Yang Hong

QUANTUM CHEMICAL CALCULATIONS APPLIED TO SOMO-HOMO CONVERSION AND VIBRATIONALLY AVERAGED NMR SHIELDING PARAMETERS , Erik Johnson

Design and Synthesis of Stable Aminyl and Nitroxide Radical Precursors , Joshua Bryan Lovell

Development of Nanomaterial Supports for the Study of Affinity-Based Analytes Using Ultra-Thin Layer Chromatography , Allegra Pekarek

ANALYSIS OF DRUG-PROTEIN INTERACTIONS DURING DIABETES BY HIGH-PERFORMANCE AFFINITY CHROMATOGRAPHY , Pingyang Tao

Electropolymerization and Characterization of Thin Film Dielectrics , Christopher White II

Synthesis, Characterization, and Catalytic Activity of Copper Palladium Oxide Solid Solutions. , Gregory L. Christensen

GLOBAL MINIMUM SEARCH AND CARBON MONOXIDE BINDING STUDIES OF NOVEL GOLD NANOCLUSTERS , Navneet S. Khetrapal

Mass Spectrometry and Nuclear Magnetic Resonance in the Chemometric Analysis of Cellular Metabolism , Eli Riekeberg

Ultrafast Affinity Extraction and High-Performance Affinity Chromatography Applications for Measuring Free Drug Fractions: Interactions of Sulfonylurea Drugs with Normal and Glycated Human Serum Albumin , Bao Yang

DEVELOPMENT OF ENTRAPMENT COLUMNS FOR THE STUDY OF AFFINITY BASED ANALYSIS OF DRUG-PROTEIN INTERACTIONS , Shiden T. Azaria

Chemical Vapor Deposition of Two-Dimensional Materials and Heterostructures , Alex J. Boson

Bioinformatic and Biophysical Analyses of Proteins , Jonathan Catazaro

Developing Functionalized Peroxide Precursors for the Synthesis of Cyclic and Spirocyclic Ethers , Anna J. Diepenbrock

Decarboxylative Elimination for the Systhesis of Olefins Via Photoredox/Cobalt Dual Catalysis , Renjie Gui

Enantioselective γ- and δ -Borylation of Unsaturated Carbonyl Derivatives: Synthesis, Mechanistic Insights, and Applications. , Gia L. Hoang

Entrapment of proteins in high-performance affinity columns for chromatographic studies of drug-protein interactions , Saumen Poddar, Elliott Rodriguez, Shiden Azaria, and David S. Hage

Genetic Code Expansion in Biochemical Investigations and Biomedical Applications , Nanxi Wang

Applying the Diffusion of Innovation Theory to Characterize STEM Faculty Attending Professional Development Programs , Dihua Xue

Who is attending pedagogical workshops? Applying the Innovation Diffusion to Characterize Faculty Attendees , Victoria Dihua Xue, Trisha Vickrey, and Marilyne Stains

Genetically Encoded Fluorescent Protein Biosensor for Nitric Oxide , Wenjia Zhai

STUDIES IN DIRECTED CATALYTIC ASYMMETRIC HYDROBORATION OF 1,2-DISUBSTITUTED UNSATURATED AMIDE , Shuyang Zhang

Synthesis and Applications of Cyclobutenes , Benjamin Enns

Binding of Oxygen to Human Hemoglobin Within the Erythrocyte Using ICAM Spectrophotometry , Kyle K. Hill

Design and Synthesis of Novel Octacarboxy Porphyrinic Metal-Organic Frameworks , Jacob A. Johnson

Development of a Direct Activity Probe for Rho-Associated Protein Kinase , Maia Kelly

Thermolysis of Hypervalent Iodine Complexes: Synthesis of Fluorinated Radiotracers for Positron Emission Tomography and Synthesis of Quaternary α-Alkyl α-Aryl Amino Acids , Jayson J. Kempinger

Synthesis and Applications of Lanthanide Sulfides and Oxides , Christopher Marin

SELECTIVE IODINATION USING DIARYLIODONIUM SALTS , William H. Miller IV

MOLECULAR MECHANISM FOR THE BIOSYNTHESIS AND REGULATION OF SECONDARY METABOLITES IN LYSOBACTER , Simon Tesfamichael Tombosa

STUDIES IN ASYMMETRIC CATALYSIS: SUPRAMOLECULAR CATALYSIS AND BORANE-ASSISTED HYDROGENATION , Kazuya Toyama

Molecular Mechanism for the Biosynthesis of Antifungal HSAF and Antibacterial WAP-8294A2 , Haotong Chen

Toward the Probing of DHQS Activity by Protein Engineering through the Introduction of Unnatural Amino Acids and the Selection of tRNA/tRNA Synthetase Pairs , Shaina E. Ives

Toward an Expanded Role for Collision-Induced Dissociation in Glycoproteomic Analysis , Venkata Kolli

New Methods for Synthesis of Organic Peroxides and Application of Peroxide Electrophiles to Synthesis of Functionalized Ethers , Shiva Kumar Kyasa

Chromatographic Analysis of Drug-Protein Interactions During Diabetes and Characterization of Human Serum Albumin Through Multidimensional Mass Spectrometry , Ryan E. Matsuda

THREE-DIMENSIONAL SCAFFOLDS OF GRAPHENE, CARBON NANOTUBES AND TRANSITION-METAL OXIDES FOR APPLICATIONS IN ELECTRONICS, SENSORS AND ENERGY STORAGE , Gilbert N. Mbah

TOWARD THE MEASUREMENT OF BIODISTRIBUTION OF 18 F-LABELED INDUSTRIAL CHEMICALS WITH POSITRON EMISSION TOMOGRAPHY (PET) , Katelyenn S. McCauley

Investigations into the Molecular Mechanisms of Bacterial Pathogen-Host Interactions: Construction of a Dual Plasmid System for Incorporation of Unnatural Amino Acids into Pseudomonas syringae pv. tomato DC3000 , Scotty D. Raber

Applications of High Performance Affinity Chromatography with High Capacity Stationary Phases Made by Entrapment , John A. Vargas Badilla

Uses of Diaryliodonium Salts and Methods for their Synthesis , Jordan M. Veness

The intersection of nuclear magnetic resonance and quantum chemistry , Yali Wang

Chemometric and Bioinformatic Analyses of Cellular Biochemistry , Bradley Worley

Analysis of Free Solute Fractions and Solute-Protein Interactions Using Ultrafast Affinity Extraction and Affinity Microcolumns , Xiwei Zheng

The 8-Silyloxyquinoline Scaffold as a Versatile Platform for the Sensitive Detection of Aqueous Fluoride , Xinqi Zhou

Nanostructured Cerium Oxide Based Catalysts: Synthesis, Physical Properties, and Catalytic Performance , Yunyun Zhou

Hydrolytically Stable Analogues of Sugar Phosphates and a Miniaturized in Situ Enzymatic Screen , Xiang Fei

Development and Application of Combined Quantum Mechanical and Molecular Mechanical Methods , Rui Lai

Syntheses of Aminyl Diradicals and Nitroxide Tetra- and Octaradicals , Arnon Olankitwanit

Analysis of Drug Interactions with Lipoproteins by High Performance Affinity Chromatography , Matthew R. Sobansky

Studies in Asymmetric Synthesis: Supramolecular Catalysis, C-H Activation, and D-Cycloserine Synthesis , Nathan C. Thacker

Application of Nuclear Magnetic Resonance Based Metabolomics to Study the Central Metabolism of Staphylococci , Bo Zhang

IMPLEMENTATION AND APPLICATION OF THE MMFF94 FORCE FIELD , Hongbo Zhu

The Electrochemical Analysis of Bovine Bone Derived Supercapacitors, Organic Peroxide Explosives, and Conducting Polymer Nanojunctions , Paul Goodman

The Development and Applications of NMR Metabolomics Analysis of Bacterial Metabolomes , Steven M. Halouska

Utilizing NMR Spectroscopy and Molecular Docking as Tools for the Structural Determination and Functional Annotation of Proteins , Jaime Stark

A. Catalysis of CO-PROX by Water-Soluble Rhodium Fluorinated Porphyrins B. Studies toward Fluorination of Electron Rich Aromatics by Nucleophilic Fluoride , Shri Harsha Uppaluri

Regulation of Secondary Metabolism in Lysobacter enzymogenes : Studies of Intercellular and Intracellular Signaling , Stephen J. Wright

DIRECTED CATALYTIC ASYMMETRIC HYDROBORATION OF 1,1-DISUBSTITUTED ALKENES , Mohammad Odeh Bani Khaled

I. Synthesis of β-Sitosterol and Phytosterol Esters; II. New Methodology for Singlet Oxygen Generation from 1,1-Dihydroperoxides , Jiliang Hang

Experimental and Theoretical Studies in Solid-state Nuclear Magnetic Resonance , Monica N. Kinde

Experimental and Theoretical Studies in Nuclear Magnetic Resonance , John D. Persons

RHODIUM-CATALYZED HYDROBORATION OF 1,1-DISUBSTITUTED ALKENES , Scott A. Pettibone

INVESTIGATIONS OF INTER- AND INTRAMOLECULAR C-O BOND FORMING REACTIONS OF PEROXIDE ELECTROPHILES , Benjamin W. Puffer

The Use of Rhenium (VII) Oxide as a Catalyst for the Substution of Hemiacetals , Michael W. Richardson

Characterization of Novel Macrocyclic Polyether Modified Pseudostationary Phases for use in Micellar Electrokinetic Chromatography and Development of a Chemiluminescence Presumptive Assay for Peroxide-based Explosives , Raychelle Burks

Preparation and Characterization of Biomimetic Hydroxyapatite-Resorbable Polymer Composites for Hard Tissue Repair , Kristopher R. Hiebner

High Yield Synthesis of Positron Emission Tomography Ligands for Metabotropic Glutamate Receptor Imaging , Saraanne E. Hitchcock

Optimization and Implementation of Entrapment: A Novel Immobilization Technique for High-performance Affinity Chromatography , Abby J. Jackson

Fabrication and Catalytic Property of Cerium Oxide Nanomaterials , Keren Jiang

Affinity Chromatography in Environmental Analysis and Drug-Protein Interaction Studies , Efthimia Papastavros

Development and Optimization of Organic Based Monoliths for Use in Affinity Chromatography , Erika L. Pfaunmiller

I. An Improved Procedure for Alkene Ozonolysis. II. Exploring a New Structural Paradigm for Peroxide Antimalarials. , Charles Edward Schiaffo

QUANTUM MECHANICAL AND MOLECULAR MECHANICAL STUDY OF SOLVENT EFFECTS , Dejun Si

Resorbable Polymer-Hydroxyapatite Composites for Bone Trauma Treatment: Synthesis and Properties , Troy E. Wiegand

PURIFICATION OF LYSINE DECARBOXYLASE: A MODEL SYSTEM FOR PLP ENZYME INHIBITOR DEVELOPMENT AND STUDY , Leah C. Zohner

Characterization of Glycation Sites on Human Serum Albumin using Mass Spectrometry , Omar S. Barnaby

HIGH TEMPERATURE RARE EARTH COMPOUNDS: SYNTHESIS, CHARACTERIZATION AND APPLICATIONS IN DEVICE FABRICATION , Joseph R. Brewer

Classification, Synthesis and Characterization of Pyridyl Porphyrin Frameworks , Lucas D. DeVries

Ultrasonic Activation of Triacetone Triperoxide , LaTravia R. Dobson

Characteristics and Stability of Oxide Films on Plutonium Surfaces , Harry Guillermo García Flores

Controlling Reductive Elimination From Novel I(III) Salts Using a SECURE Method , Joseph W. Graskemper

I. A NEW SYNTHETIC APPROACH TO THE SYNTHESIS OF N-(PHOSPHONOACETYL)-L-ORNITHINE, II. THE INFLUENCE OF PYRIDINE ON THE OZONOLYSIS OF ALKENES , Bradley M. Johnson

Chromatographic Studies of Drug-Protein Binding in Diabetes , Kathryn (Krina) S. Joseph

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113 Organic Chemistry Presentation Topics | Seminar Topics

Organic Chemistry Seminar Presentation Topics

Organic Chemistry Research Topic Ideas

  • Addition Polymers (Plastics)
  • Buckminsterfullerene and Carbon Nano-tubes
  • Fractional Distillation
  • Halocarbon Anesthetics
  • Lycopene and Other Hydrocarbon Antioxidants
  • Alcohol Poising and Fetal Alcohol Syndrome
  • Animal uses of Thiol Alcohols for Defense
  • Chemistry of Vitamin-E
  • Ether Anesthetics
  • Phenolic Antiseptics and Disinfectants
  • Aldehydes and Ketones as Flavoring Agents
  • Alpha-hydroxy acids in cosmetics
  • Biodiesels (esters of fats)
  • Chemistry of Aspirin, Acetaminophen, and Ibuprofen
  • Chemistry of Vision
  • Chemistry of Vitamin-A
  • Chemistry of Vitamin-C
  • Condensation Polymers (Fiber Polymers)
  • Ester Local Anesthetics (Epidurals)
  • Muscle Fatigue (Lactic Acid)
  • Nitroglycerin in Medications
  • Progesterone, Norethynodrel and Birth control
  • Retin-A and other Topical Acne Treatments
  • Vanilloids and Pain Relief
  • Alkaloid Chemistry of Opiates
  • Amide Local Anesthetics (Topical Anesthetics)
  • Amides in Medicine: Amytal, Valium, and Polycillin
  • Amphetamines
  • Antidepressants
  • Antihistamines
  • Chemistry of Nicotine and Caffeine Addiction
  • Chemistry of Vitamin-B6
  • Epinephrine (Adrenaline)
  • Neurotransmitters
  • Polyamide Chemistry
  • Resin Polymers (Construction Polymers)
  • Sulfonamide Antibiotics
  • Chemistry of Artificial Sweeteners
  • Chemistry of Smell
  • Chemistry of Taste
  • Chemistry of Tooth Development and Wear
  • Gas Chromatography of Organic Compounds
  • High-Performance Liquid Chromatography of Organic Compounds
  • Inferred Spectroscopy of Organic Compounds
  • Ion-Exchange Chromatography of Organic Compounds
  • Mass Spectroscopy of Organic Compounds
  • Nuclear Magnetic Resonance of Organic Compounds
  • Synovial and Bursa Fluids (Organic Lubricants)
  • Tamoxifen and Taxol (Cancer-Fighting Drugs)

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  • Masters Programs /

MSc Organic Chemistry

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MSc Organic Chemistry

Are you interested in the world of chemical compounds and organic molecules that constitute lifeforms? A fascinating course, MSc in Organic Chemistry is a specialized postgraduate degree program in one of the sought-after branches of chemistry . Organic Chemistry mainly involves the scientific study of the properties, composition, and structures of carbon-based compounds and their reactive properties. It is a blend of conceptual understanding and studying reactions to draw observations at a practical level and utilize it in the real world. This blog brings you a comprehensive course guide on MSc Organic Chemistry, top colleges, and universities offering this program, and the jobs and career scope it entails.

This Blog Includes:

What is msc organic chemistry, msc organic chemistry admission, eligibility criteria, msc organic chemistry syllabus, top universities for msc organic chemistry abroad, top colleges for msc organic chemistry in india, msc organic chemistry jobs & salary in india, msc organic chemistry project topics, msc organic chemistry books.

MSc Organic Chemistry is a postgraduate degree that is generally offered as a 2-year course. It aims to familiarize students with the various chemical analytical principles, catalytic application, and photochemical reactions amongst other concepts. It primarily emphasizes on organic compounds and various related processes like reactivity of the molecules, application, and association with other inorganic molecules. A course that is increasingly valued with the surging importance of organic chemistry in the fields of pharmacy and research, MSc Organic Chemistry is the right course for you if you aim to gain an advanced-level understanding of this field and are intrigued by the functioning of organic molecules.

The admission process is different in India and abroad. Different universities in India conduct entrance exams with rounds of group discussion and personal interviews. Students have to clear all rounds in order to be eligible for admission. Some universities grant admission on the basis of marks in the undergraduate degree. For admission to foreign universities, the applicant has to undertake English proficiency tests like IELTS, and TOEFL and submit the GRE scores as well.

Subscribe to Leverage IELTS for more such information

Before enrolling for a course like this, it is imperative to be aware of the eligibility criteria that you need to qualify. These criteria are decided by the universities to evaluate the skills, adeptness, and suitability of the individual for the course. Listed below are the general eligibility requirements that a prospective candidate has to meet to qualify for this course.

  • The student should have completed their graduation with a BSc in Chemistry or any other related discipline and with the minimum percentage of marks made mandatory by their chosen academic institution
  • Students wishing to study this postgraduate course abroad would have to necessarily undertake an English proficiency test like IELTS, TOEFL, etc. Further, you will also have to provide GRE scores and submit an SOP, LORs, and other admission essays

Note: The aforementioned requirements are only for indicative purposes. Students are advised to check the official website of their chosen university to know the actual course and admission requirements.

Also Read: MSc Analytical Chemistry

As a postgraduate program, it encompasses the study of advanced-level concepts covered during a bachelor’s degree in Chemistry. The program offers many cores and electives which are carefully balanced to ensure that the fundamental concepts become vividly clear to the undertakers and the electives expand the scope of the course as well as encourage students to steer towards a career in Research . Some major subjects that are covered in the course are mentioned below.

  • Organic Chemistry
  • Inorganic Chemistry
  • Physical Chemistry
  • Bioorganic Chemistry
  • Natural Products
  • Pharmaceutical Chemistry
  • Organic Spectroscopy and Synthesis

MSc Organic Chemistry Syllabus PDF Andhra University  MSc Organic Chemistry Syllabus PDF IIT MSc Organic Chemistry Syllabus PDF University of Delhi

There are many universities across the world that offer specialized MSc programs in Chemistry. Are you facing the dilemma of which university to opt for? To help you in your research, we have enlisted the best globally accredited Universities that offer MSc in Organic Chemistry:

You can study Masters in organic chemistry in India as well. Check out the list of top colleges in India:

  • Graphic Era (Deemed to be University)
  • Loyola College
  • Hansraj College
  • Parul University
  • Christ University
  • Jain University
  • Jamia Millia Islamia
  • Kalinga University
  • Jai Hind College
  • Aligarh Muslim University

Successful graduates completing this course can explore a plethora of career opportunities in various sectors. Many decide to pursue further educational qualifications like Ph.D. in Chemistry or other research-oriented courses while some might decide to take on the stimulating challenges in the world of research and academia. There are multiple avenues to choose from for an Organic Chemistry graduate. Enlisted below is a list of sought-after jobs for a recent master in organic chemistry graduate with a salary in India

There are multiple books available online. Referring to the right books will help you in all stages of completing your MSc in organic chemistry. Here are some of the popular books:

  • Wiley’s Problems in Organic Chemistry by K. Singh
  • Advanced Problems in Organic Chemistry by MS Chouhan
  • A Guidebook to Mechanism in Organic Chemistry by Peter Sykes
  • Advanced Organic Chemistry by Singh J
  • M.Sc. chemistry (organic) solved paper for the final year by Urvashi Team
  • M.Sc. Chemistry by RS Arora

You can either go for further studies at the doctorate level or start working. Some of the popular job profiles are Synthetic Lab scientists, Research scientists, Professors, etc.

Organic, Analytical, and Biochemistry is the most opted specialization in MSc.

Friedrich Wohler is the father of organic chemistry.

Only the citizens of the USA are eligible to join NASA.

USA, UK, and Germany are the top 3 countries to pursue courses related to chemistry.

Acharya Prafulla Chandra Ray is the father of Indian chemistry.

We hope this blog has helped you to knowing the quintessential features of MSc Organic Chemistry. Unsure about where to apply and how? Leverage Edu is here to help guide you throughout the process of selecting the best course and university as well as sorting out the admission process to ensure that you send a winning application. Register today for a free session today! Call us immediately at 1800 57 2000 for a free 30-minute counselling session.

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It’s good information Best guidance for any bsc graduates students for career best opportunities Thank you 😊

Hello Mora, Thanks for appreciating our work, we value the positive feedback coming to us from your way. Here is a complete detailed guide on MSc course that you can have a look upon: https://leverageedu.com/blog/master-of-science/ .

Any vacancy in organic chemistry plz ..

Really helpful Thank you

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Organic Chemistry

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  • Theoretical chemistry

Organic chemistry is the study of structures, properties, and reactions of organic compounds and organic materials.

The range of applications of organic compounds is enormous and organic chemistry overlaps with many areas, including medicinal chemistry, biochemistry, organometallic chemistry, polymer chemistry and many aspects of materials science. Thus, in the modern society, knowledge within organic chemistry is required within a wide range of disciplines, as  demonstrated by the fact that organic synthetic products serve as e.g. plastics, drugs, pharmaceuticals, pesticides, nano-molecular devices, food additives, pigments, flavorings, fibers, clothing, petrochemicals, explosives and paints. Additionally, organic chemistry deals with life and life processes, being associated with nearly every aspect of our existence.  All the key molecules of life, such as DNA, proteins, lipids and carbohydrates, are organic compounds, furnishing the energy that sustains life. Organic chemistry traditionally includes the chemistry of fuels. Currently, the activity is increasingly connected to energy related sciences, such as energy capture and storage. Due to environmental problems arising by unwanted consequences of organic chemicals previously introduced to the environment, the development of environment-friendly (sustainable) processes has become an interesting and challenging field of organic chemistry. Key subtopics presently covered by the activity at the Section of Organic Chemistry includes catalysis, organometallic chemistry, chemistry of polyenes, chemo- regio- and enantioselective synthesis, heterocyclic chemistry, fluoro-containing compounds and NMR. The application of analytical tools, such as advanced NMR and other spectroscopic and chromatographic techniques are important components of all these research activities. You will find more about the research within organic chemistry here .

Some current research projects are: •    Development of new cancer treatment agents by kinase inhibition; •    Synthesis of anti-bacterial agents based on marine natural products; •    Synthesis of polyenes, modification of polyenes, polyenes as gene carriers; •    Gold catalysed chemo-, regio- and enantioselective synthesis; •    Enzyme catalysed chemo-, regio- and enantioselective synthesis; •    New anti-inflammatory compounds from plant.

Through a master in Organic Chemistry, you will get an excellent knowledge of modern theoretical and experimental organic chemistry. Your master project will give you a solid background for planning and applying a variety of organic synthetic methods in experimental research projects. You will gain experience in how the outcome, yields and selectivity of your reactions may be improved by optimization of reaction conditions. Additionally, your investigations will give you important mechanistic understanding of the theoretical basis of organic processes. Today, NTNU is the university in Norway educating most organic chemists, being regarded as skillful synthetic chemists and well trained within analytical organic chemistry. Organic chemists from NTNU work within industry, research and administration both in Norway and abroad.

Anton Brondz - master student in organic chemistry

Supervisor: Associate professor Odd Reidar Gautun

I achieved my bachelor’s degree (BKJ) with a specialization in organic chemistry at NTNU in 2014.  As organic chemistry has always been the most fascinating field in chemistry for me, I started on a master’s degree (MSCHEM) in organic chemistry in the fall of 2014 to have a chance to work on a real project.

For my master’s degree, I am synthesizing pyridine-derived compounds using metal catalysts that could be useful for antimicrobial purposes. The work is mostly lab based which means I get to take an active part in the research. In fact, my project is a part of a larger cooperation between several Norwegian universities where the ultimate goal is to replicate parts of naturally occurring antimicrobial compounds for use in medicine.

msc organic chemistry project topics

Recommended elective courses

  • KJ3021 Nuclear Magnetic Resonance Spectroscopy
  • TKJ4155 Organic Synthesis II
  • TKJ4180 Physical Organic Chemistry
  • TKJ4175 Chemometrics
  • KJ3059 Chromatography, Advanced Course
  • TKJ4205 Molecular Modelling
  • TKP4110 Chemical Reaction Engineering
  • TKP4115 Surface and Colloid Chemistry
  • TKP4155 Reaction Kinetics and Catalysis
  • TKJ4130 Organic Synthesis, Laboratory

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Organic Chemistry: Drug Discovery MSc

London, Bloomsbury

This programme offers students the opportunity to follow an integrated course of research and interdisciplinary study. Students gain outstanding training in synthetic organic chemistry and computational docking applied to drug design, together with a breadth of experience in several areas of synthetic methodology and chemical biology.

UK tuition fees (2024/25)

Overseas tuition fees (2024/25), programme starts, applications accepted.

Applications open

  • Entry requirements

A minimum of an upper second-class Bachelor's degree in a relevant discipline from a UK university or an overseas qualification of an equivalent standard.

The English language level for this programme is: Level 1

UCL Pre-Master's and Pre-sessional English courses are for international students who are aiming to study for a postgraduate degree at UCL. The courses will develop your academic English and academic skills required to succeed at postgraduate level.

Further information can be found on our English language requirements page.

Equivalent qualifications

Country-specific information, including details of when UCL representatives are visiting your part of the world, can be obtained from the International Students website .

International applicants can find out the equivalent qualification for their country by selecting from the list below. Please note that the equivalency will correspond to the broad UK degree classification stated on this page (e.g. upper second-class). Where a specific overall percentage is required in the UK qualification, the international equivalency will be higher than that stated below. Please contact Graduate Admissions should you require further advice.

*Should you experience any issues with the drop-down below, try de-selecting the country and re-selecting it. If this doesn't work, then you may refer to this page which may help you find the same equivalencies - check the Entry requirements above beforehand. Please note the table is indicative only, revisiting when the dropdown is working to confirm is recommended.

About this degree

The programme provides a thorough foundation in drug design, advanced organic synthesis and biological chemistry, together with modules on research techniques and professional development. Students will carry out a substantial research project on organic/medicinal chemistry or chemical biology over a six-month period. Projects will include a substantial computational component for the design and docking of synthetic targets.

Who this course is for

This MSc is aimed at students who wish to gain a detailed understanding of the context of organic chemistry research within the drug discovery setting. It is suitable for chemistry graduates with an interest in the drug discovery process wishing to enhance their research and synthetic skills. It is also suitable for those in industry wishing to expand their research experience. Applicants who have related degrees to chemistry will be considered on an individual basis.

What this course will give you

This degree involves a cutting-edge research project under the supervision of a member of staff at UCL and industry experts. Students will initially learn about the drug design process via a number of taught courses and  in silico docking studies. They will then progress to the synthetic laboratory where they will prepare the compounds that they have designed in order to evaluate them experimentally as potential drug candidates.

UCL Chemistry is among the top departments in the UK for this subject area: UCL is consistently placed in the global top 20 across a wide range of university rankings - and is currently 4th in the UK in the  QS World University Rankings 2023 for Chemistry.

The foundation of your career

Recent alumni from our postgraduate Chemistry programmes have taken up PhD positions, or are working in industry (including manufacturing and scientific research, development and analysis), while others have entered teacher training.

Employability

The MSc has been developed in response to the needs of the pharmaceutical and biotechnology sectors for highly qualified students as leaders in the discovery of new medicines. The pharmaceutical sector is a major employer in the UK and high-quality graduates with an understanding of the sector are always in demand.

You will have opportunities to visit the Royal Society of Chemistry and the Royal Society (both situated in central London), to attend public lectures and meetings given by eminent national and international scientists. The student run ‘Chemical Physical society’ which is the oldest student run chemical society also holds weekly social events and scientific discussions and seminars on a variety of topical chemical and physical aspects. In addition, there are many scientific events offering networking opportunities organised by several societies across UCL, ranging from Life Science to Data Science.

Accreditation

This degree is accredited by the Royal Society of Chemistry. Accreditation of degree programmes by the Royal Society of Chemistry is a mark of assurance that teaching and learning meet the standards expected from a university. Furthermore, accredited programmes ensures the needs of employers and students are fulfilled.

Teaching and learning

The programme is delivered through a combination of online and face-to-face lectures, seminars and workshops.

The programme is delivered through a combination of lectures, problem classes, workshops and projects. Assessment is through unseen written examination, coursework, project reports and presentations.

On average it is expected that a student spends 150 hours studying for each 15-credit module. This includes teaching time, private study and coursework. Modules are usually taught in weekly sessions (approx. 2 hours per week) over 10 weeks each term.

Students take Principles of Drug Design (15 credits, code CHEM0033) plus Topics in Modern Chemistry (15 credits, code CHEM0077). If students have already taken Principles of Drug Design in a previous degree, they will take Topics in Modern Chemistry instead (30 credits, code CHEM0078). Within the Topics in Modern Chemistry modules, students will select topics in consultation with the programme director once term starts.

Compulsory modules

Optional modules.

Please note that the list of modules given here is indicative. This information is published a long time in advance of enrolment and module content and availability are subject to change. Modules that are in use for the current academic year are linked for further information. Where no link is present, further information is not yet available.

Students undertake modules to the value of 180 credits. Upon successful completion of 180 credits, you will be awarded an MSc in Organic Chemistry: Drug Discovery.

Accessibility

Details of the accessibility of UCL buildings can be obtained from AccessAble accessable.co.uk . Further information can also be obtained from the UCL Student Support and Wellbeing team .

Fees and funding

Fees for this course, additional costs.

T here are no programme-specific costs.

For more information on additional costs for prospective students please go to our estimated cost of essential expenditure at Accommodation and living costs .

Funding your studies

Students can be self-funded or find sponsorship from funding agencies such as research councils, the UCL scholarships and funding pages, the European Union, industry or charities.

There are also a number of Graduate School Scholarships and departmental bursaries and prizes available.

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website .

Brown Family Bursary

Deadline: 20 June 2024 Value: £15,000 (1 year) Criteria Based on both academic merit and financial need Eligibility: UK

UCL East London Scholarship

Deadline: 20 June 2024 Value: Tuition fees plus £15,700 stipend () Criteria Based on financial need Eligibility: UK

Students are advised to apply as early as possible due to competition for places. Those applying for scholarship funding (particularly overseas applicants) should take note of application deadlines.

When we assess your application we would like to learn:

  • Why you want to study Organic Chemistry and Drug Discovery at graduate level. Please elaborate on the motivational factors that have drawn you to our subject. Our experience is that applicants from many different first-degree backgrounds participate in the programme and you should explain how your own background leads you to this MSc.
  • Why you want to study Organic Chemistry and Drug Discovery at UCL. Tell us how UCL can help to improve your career path and what you can bring to the programme.
  • How your academic background meets the demands of this challenging programme. The MSc is a broadening degree which will lead you into areas that lie outside your first-degree subject. How comfortable are you with that?
  • what would you like to be able to do following your MSc?

Together with essential academic requirements, the personal statement is your opportunity to elaborate on your reasons for applying to this programme and how your interests match what the programme will deliver.

Please note that you may submit applications for a maximum of two graduate programmes (or one application for the Law LLM) in any application cycle.

Choose your programme

Please read the Application Guidance before proceeding with your application.

Year of entry: 2024-2025

Got questions get in touch.

Chemistry

[email protected]

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msc organic chemistry project topics

  • Chemical Biology
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  • Centre for Catalysis and Sustainable Chemistry (CSC)
  • Molecular Materials
  • Kaibo Zheng
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DTU Chemistry - NanoChemistry

Projects offered for bachelor and master students

Nanoscale chemistry is the exciting interdisciplinary areas of chemical science and technology where physical and chemical properties of systems addressed depend on their sizes. The size can range from the single molecule (» 1 nm) to many thousands of molecules (> 100 nm), with almost macroscopic properties. Chemical properties at the nanoscale are different from those in macroscopic, say molar scales. Studies of nanoscale systems require high-resolution techniques such as electrochemistry at atomically planar surfaces. Molecules in such environments can be studied by the ultra-sensitive microscopies, scanning tunnelling and atomic force microscopy (STM and AFM, some examples are shown in Figure 1.). We can, literally see the single molecules in action.

Such studies are important because they disclose new chemical behaviour different from the known macroscopic world. They offer further new perspectives for the design and chemical synthesis of novel materials, and for forthcoming electronics and biological screening at ultra-small scales.

Figur 1

DTU Chemistry’s NanoChemistry group offers interesting special course, bachelor, master and Ph.D. projects in different areas of chemistry at the nanoscale listed below. Those interested are welcome to contact us for further information:

Jens Ulstrup [email protected] , Qijin Chi [email protected]

1. Investigation of Solid / Liquid Electrochemical Interfaces at the Nanometer Scale

The project aims broadly at studying solid / liquid interfaces in an electrochemical environment at the nanometer scale and offers new insight into fundamental understanding of molecular structure and properties in the interfacial region. Two key techniques applied are scanning probe microscopy (SPM), particularly scanning tunnellingmicroscopy (STM) and electrochemistry. The novelty of the project is the combination of high-resolution STM, to study interfacial electrode dynamics and specific adsorption of anions, and molecular assembling under electrochemistry control. Well-defined single crystal electrodes are used throughout in order to reach atomic, submolecular andmolecular levels. In the project, liquid solutions include not only aqueous electrolyte solution but also non-aqueous solution such as ionic liquids.

Figur 2

Figure 2. STM images of single crystal electrode gold surfaces (A) Au(111), (B) Au(100) and (C) Au(110) in ammonium acetate or phosphate solution. Characteristic reconstructions are given under each substrate.

Several specific projects are offered: a) in situ study of electrode surface dynamic under potential control; b) in situ anion adsorption on electrode surfaces; c) construction of metallic nanostructures; d) in situ monolayer formation and dynamic structures; e) study of electrode dynamics in non-aqueous liquid environment. 

2. Assembly and structural characterization of biomolecules on singlecrystal metal surfaces

Proteins are composed of 21 L-amino acids. Nature’s specific choice of the L-form is a long-standing puzzle. One hypothesis is life’s origin at chiral solid-liquid interfaces. This project offers studies of amino acid assembly at solid/liquid interfaces, particularly addressing structures on atomically planar metal surfaces with a view of understanding molecular packing, surface interaction and chirality. Technologies are electrochemistry and in situ scanning tunnelling microscopy (STM) to molecular even sub-molecular resolution. Students will learn to prepare single-crystal metallic surfaces and to operate in situ STM at atomic or molecular resolution. The purpose of the project is to achieve a better understanding of how biological molecules interact with and assemble on metallic surfaces, in particular gold and platinum surfaces, at the nanoscale. Figure 1 (middle) shows an example of such a study. 

3. Bioelectrochemistry of metalloproteins at the single-molecule level

Electron transfer of redox metalloproteins is of great importance in photosynthesis, respiration and enzyme catalysis. Protein electron transfer and even enzyme kinetics can be studied to an unprecedented level of precision by our group’s technologies. We offer projects that involve the assembly of protein molecules on surfaces, and their characterization by electrochemistry (protein electron exchange with the electrode) and STM/AFM under conditions where the proteins retain their function, Fig.3. Studies of single protein molecules are novel and offer both new insight in fundamental protein properties and a basis for ultra-sensitive biosensing devices. Students will learn to prepare singlecrystal gold surfaces, protein electrochemistry, and to operate STM as well as handling fragile metalloproteins.

Fig.3 Two core proteins studied by our group. Left: A large Cu-enzyme (Cu-NiR) from the biological nitrogen cycle. The spheres show the Cu-atoms. Electrons are let in through the blue centres and transmitted through the protein to the orange centres where the catalytic process occurs. Right: Another Cu-protein, azurin in electron transferring action at a modified Au(111)-electrode surface.

4. Is DNA a molecular conductor?

DNA is known as the bearer of genetic information of living cells. The nucleic acid sequence is the recipe to build proteins needed to perform the ‘daily work’ of the cell. DNA is organized as a double strand of complementary nucleic acids in a helix structure. DNA is also recently recognized (perhaps) as an electric conductor, Figure 4, and electronic conductivity or long-range electron transfer is believed to play a role in the cell’s control mechanisms (DNA repair). Conduction is via the bases. The goals of this project are to investigate these properties using modified DNA at solid surfaces combined with STM and electrochemistry. The results offer perspectives for future bioelectronics and bio-sensing devices. Students will learn to prepare single-crystal surfaces of gold and to operate STM as well as to deal with DNA-based molecule.

figur4

Contact person: Jens Ulstrup [email protected] .

5. Metallic and inorganic nanoparticles, chemical synthesis, characterization and electrocatalysis application

Metallic nanoparticles (NPs) in the size range 1-20 nm are prime representatives of nanoscience “in action”. Electronic (colour) and chemical properties of, say Au and Pt NPs depend intriguingly on the NP size. Prussian Blue (PB) NPs ([Fe(CN)6]3-/4-) are another example with interesting properties. NPs can be combined into composite structures known as “nanoflowers” etc. We offer projects on the chemical synthesis of metallic and PB NPs and their characterization by the advanced microscopies STM, AFM and transmission electron microscopy (TEM). Catalytic NP properties will be tested in fuel cells and other electrochemical environments. In addition to chemical synthesis, students will learn STM and AFM technology and have access to TEM at DTU’s new microscopy center, CEN. “Hybrids” of metalloproteins and molecular scale inorganic structures such as metallic NPs are new molecular objects with exciting properties that differ from those of the separate metalloproteins and NP components. Binding a protein to a NP also strongly enhances the electron transport between the protein and an electrochemical surface. Projects offered in this new applied nanoscience area include: “functionalization” of metallic NPs and binding of proteins to the functionalized NPs; electrocatalysis of the “hybrids”; and, in situ STM of the hybrids towards the level of resolution of the single hybrid molecular entity. Students will learn these technologies.

figur5

Figure 5. left: AFM image of Prussian blue nanoparticles (PBNPs) immobilized on a gold surface (left), and right: comparison of cyclic voltammograms recorded for electrocatalytic activity towards reduction of H2O2 with (red) and without PBNPs (black).

Contact persons: Qijin Chi [email protected] and Jens Ulstrup [email protected] .

6. Green Synthesis, Characterization and Applications of Metallic Nanostructures

The SAMENS (saccharidebased approach to metallic nanostructure synthesis) method has been recently discovered in the group to produce 8-12 nm gold nanoparticles and 1.6-1.8 nm platinum nanoparticles. This serves as a general platform for “green” synthesis of different nanostructures such as nanoparticles, nanowires, nanosheets and bimetallic nanoflowers shown in Figure 6. The goal of the project is to develop a non-toxic, environmentally friendly method for chemical synthesis of metallic nanostructures with high yield and purity, with shape and size control, and broad application. This project aims for the preparation of not only spherical particles, but also more advanced anisotropic and heteronanostructures such as wires, polygons, “nanoflowers” and other core-shell structures by ”green” chemical synthesis, based on completely harmless reagents. The synthesized structures will be characterized by highresolution techniques, and mapping of electrocatalysis in fuel cell and bioelectrochemical environments. Several special courses, bachelor project and master project have been carried out successfully on this topic. One Ph.D project (2011-2014) is running along this line.

figur6

Figure 6 Nanostructures synthesized by the green method. (A) AuNPs, (B) PtNPs, (C) FeOx nanoparticles, (D) Au nanowire, (E) Pt nanowires, (F) Au nanosheet and (G) Au/Pt nanoflower. D and E are AFM images, the rest are TEM pictures.

Contact persons: Christian Engelbrekt ( [email protected] ), Jingdong Zhang ( [email protected] ).

7. Theory of molecular and nanoscale electron transport Electrical currents and electron transfer between molecules is a key notion in nano- and molecular-scale science in most of the projects above. Rational approaches to this nanoworld of new phenomena require theoretical frames to understand the phenomena and offer a guide to optimal molecular function. Theoretical methods in the projects address for example molecular monolayers, single redox biomolecules and redox metalloenzymes, as well as inorganic NP/metalloprotein hybrids. We offer interesting projects also in these areas of theoretical chemical nanoscale science. Fig.7 shows three examples of single-molecule behaviour for which new theoretical frames are needed.

figur7

Figure 7. Top left: An electron transfer protein in action at a Au(111) electrode surface. The corresponding electrochemical signal is also shown. Top right: A large redox metalloenzyme (laccase) with four Cu-atoms. The spots in bot pictures are single protein molecules in electron transfer or enzyme action. Bottom: A 1.5 nm AuNP (Au145) can be successively charged by single-electron transfer. Is the NP a molecule or a small chunk of metal

8. Chemical preparation and applications of graphene nanomaterials As the thinnest two-dimensional material, graphene is emerging as a new star of carbon nanomaterials. Its unique electronic, optical and mechanical properties have triggered studies world wide with promising applications in areas of electronic devices, chemical and biological analysis, and energy conversion and storage. The projects collectively aim to develop new chemical methods for preparation of graphene nanomaterials and to use them for chemical and biological sensing in chemical environments.

figur-8-a

Figure 8. Comparison of the structures for interesting carbon nanomaterials including graphene, carbon nanotube, graphite and C60 (Left) and Atomic-scale resolution of graphene nanosheets imaged by STM and (right). Contact person: Qijin Chi, E-mail : [email protected] ; phone : 45252032

9. Graphene–nanoparticle composite materials for energy conversion applications

Energy and environment are of global concern, which has stimulated worldwide research on efficient and clean energy technologies. Among the arising technologies are fuel cells such as the proton exchange membrane fuel cells (PEMFC). However, performance, service life and costs are major bottlenecks for this technology. The major voltage loss (about 80%) of a PEMFC is due to slow kinetics of dioxygen reduction at the cathode[1], while noble metal catalysts account for a significant part of the costs. Graphene, a two-dimensional single-atomically planar sheet of sp2 bonded carbon atoms densely packed into a honeycomb lattice structure, has attracted intense scientific attention since its discovery in 2004 [2]. Graphene possesses unique mechanical properties, such as high elasticity, very high mechanical strength, and high surface area, as well as interesting electronic properties such as high conductivity in particular. Recent studies have shown that graphene can be combined with metallic nanoparticles to form novel materials with exciting structural, mechanical, optical, electronic and catalytic properties. This new class of nanocomposite materials is expected to have a significant impact as catalysts in fuel cell processes, where the graphene part will serve as highly conductive and chemically stable loading material for small size noble metal nanoparticles. The project will aim at synthesizing and characterizing graphene-nanoparticle composite materials in the context of fuel cell applications.

figur9

Contact persons: Jens Ulstrup [email protected] , Jingdong Zhang [email protected] References [1] R. Hiesgen, D. Eberhardt, E. Aleksandrova, K. A. Friedrich, Fuel Cells, 2006, 6, 425 [2] K. S. Novoselov, A. K. Geim, S. V. Morozov, D. Jiang, Y. Zhang, S. V. Dubonos, I. V. Grigorieva and A. A. Firsov, Science, 2004, 306, 666

  • Bachelor and Master Projects

50+ Remarkable Chemistry Project Topics for BSC Students: Chemical Kinetics

Chemistry Project Topics for BSC Students

  • Post author By admin
  • October 6, 2023

Explore a comprehensive list of chemistry project topics for BSC students. Enhance your knowledge and excel in your academic pursuits.

Welcome to the captivating world of chemistry! For Bachelor of Science (BSC) students, the journey through the diverse landscapes of chemical science is an exciting adventure.

Central to this journey are chemistry projects—opportunities for hands-on exploration, experimentation, and discovery.

Yet, the secret to a truly rewarding project lies in the choice of the right topic—one that not only aligns with academic goals but also stirs up genuine curiosity and enthusiasm.

In this article, we’re about to embark on an inspiring quest through a specially curated list of chemistry project topics, tailor-made for BSC students like you.

These topics promise not only to enhance your academic journey but also to kindle your passion for the captivating world of chemistry.

So, let’s dive in and explore the boundless possibilities and wonders that await in the realm of chemistry projects!

Table of Contents

What is Chemistry Project Topics ?

Chemistry, often dubbed the central science, has its fingerprints on virtually every facet of our lives. It’s the hidden force behind the scents we love, the reactions that fuel our cars, and even the medicines that keep us healthy.

Now, suppose this: BSC students are at the forefront of this captivating science, armed with a unique chance to dive headfirst into its various branches through project work.

These projects aren’t just your run-of-the-mill assignments; they’re like scientific adventures.

They do much more than boost your knowledge; they’re contributions to the grand tapestry of scientific discovery. So, imagine being part of this world, where you not only learn but also shape the future of chemistry!

The Importance of Choosing the Right Chemistry Project

Have a close look at the importance of choosing the right chemistry project:-

Personal Engagement

A well-suited project captures your interest and keeps you engaged throughout, making your academic journey more enjoyable.

It should align with your coursework and academic goals, ensuring that your efforts contribute meaningfully to your education.

Contribution

Choosing the right project means you’re not just benefiting yourself; you’re also adding to the body of scientific knowledge and benefiting the broader scientific community.

Skill Development

The right project challenges you, helping you acquire and refine valuable skills essential for your academic and professional growth.

When you’re passionate about your project, it transforms the work into a thrilling journey filled with curiosity, discovery, and enthusiasm.

In summary, the importance of selecting the right chemistry project goes beyond academics; it influences your engagement, relevance, contribution, skill development, and passion, enriching your scientific experience and personal growth.

Chemistry Project Topics for BSC Students

Here are Chemistry Project Topics for BSC Students:-

Organic Chemistry Projects

  • Synthesis of Aspirin: Investigate the synthesis process, purity, and properties of this widely used pain reliever.
  • Extraction of Natural Pigments: Explore the extraction of pigments from various plants and assess their applications in dyes and cosmetics.
  • Analysis of Essential Oils: Analyze the chemical composition of essential oils from different sources and study their potential medicinal properties.
  • Green Chemistry: Investigate environmentally friendly synthesis methods and processes in organic chemistry.
  • Organic Synthesis of Pharmaceuticals: Design and synthesize organic compounds with potential pharmaceutical applications.
  • Study of Aromatic Compounds: Explore the properties and reactions of aromatic compounds, such as benzene and its derivatives.
  • Polymer Chemistry: Investigate the synthesis and properties of polymers, including their applications in various industries.
  • Organic Chemistry of Natural Products: Analyze the chemical makeup of natural products like alkaloids, terpenes, and flavonoids.
  • Organometallic Chemistry: Study the bonding and reactivity of compounds containing metal-carbon bonds.
  • Organic Photochemistry: Explore the effects of light on organic compounds and their photochemical reactions.

Inorganic Chemistry Projects

  • Synthesis of Metal Complexes: Investigate the preparation and characterization of metal complexes with ligands of varying structures.
  • Coordination Chemistry: Explore the coordination behavior of transition metal ions with different ligands.
  • Inorganic Synthesis of Nanoparticles: Synthesize and characterize metal or metal oxide nanoparticles with potential applications in catalysis or nanotechnology.
  • Study of Lanthanides and Actinides: Investigate the properties and applications of lanthanide and actinide series elements.
  • Inorganic Reaction Mechanisms: Analyze the reaction mechanisms of various inorganic reactions, such as redox reactions or ligand substitution reactions.
  • Organometallic Synthesis: Study the synthesis and reactivity of organometallic compounds containing metal-carbon bonds.
  • Bioinorganic Chemistry: Explore the role of metal ions in biological systems and their significance in biochemical processes.
  • Main Group Chemistry: Investigate the chemistry of main group elements and their compounds.
  • Inorganic Synthesis of Coordination Polymers: Synthesize and characterize coordination polymers with unique structures and properties.
  • Supramolecular Chemistry: Study non-covalent interactions in inorganic chemistry, such as host-guest complexes and molecular recognition.

Physical Chemistry Projects

  • Chemical Kinetics: Investigate the rate of chemical reactions under different conditions and analyze reaction mechanisms.
  • Electrochemistry: Explore the principles of electrochemical cells, study electrode processes, and investigate applications in energy storage.
  • Thermodynamics of Reactions: Study the thermodynamic parameters of chemical reactions, including enthalpy, entropy, and Gibbs free energy.
  • Quantum Chemistry: Apply quantum mechanical principles to predict molecular structures and electronic properties of chemical compounds.
  • Statistical Mechanics: Explore the statistical behavior of particles in systems, including the Boltzmann distribution and partition functions.
  • Surface Chemistry: Investigate the physical and chemical properties of surfaces and interfaces, including adsorption and catalysis.
  • Chemical Thermodynamics: Study the thermodynamic properties of chemical systems and phase equilibria.
  • Spectroscopy and Molecular Structure: Analyze the interaction of matter with electromagnetic radiation and determine molecular structures.
  • Chemical Equilibrium: Investigate chemical equilibrium and the factors that influence it in various chemical reactions.
  • Photochemistry: Explore the effects of light on chemical reactions, including photochemical mechanisms and applications.

These diverse project topics encompass a wide range of subfields within chemistry, offering BSC students opportunities for hands-on exploration and research in their chosen area of interest.

How to Select the Ideal Chemistry Project Topic?

Selecting the ideal chemistry project topic is a crucial step that can significantly impact your academic journey and research experience. Here’s a guide on how to make the right choice:

Personal Interest

Start by considering your personal interests within the field of chemistry. What topics or areas intrigue you the most? Projects aligned with your passions are more likely to keep you motivated and engaged throughout.

Academic Alignment

Ensure that the chosen topic aligns with your coursework and academic goals. It should complement your studies and contribute to your overall understanding of chemistry.

Research Existing Knowledge

Before finalizing a topic, research existing literature and studies in that area. Understanding what has already been explored can help you identify gaps in knowledge or areas where further investigation is needed.

Consult with Professors

Seek guidance from your professors or mentors. They can provide valuable insights into potential project topics, offer suggestions, and help you refine your ideas.

Available Resources

Consider the resources available to you, including laboratory equipment, chemicals, and access to research materials. Ensure that your chosen project is feasible within your academic environment.

Scope and Complexity

Assess the scope and complexity of the project. It should be challenging enough to stimulate your intellectual growth but not so complex that it becomes unmanageable.

Relevance and Impact

Think about the broader relevance and potential impact of your project. How does it contribute to the field of chemistry or address real-world issues? Projects with practical applications or scientific significance can be particularly rewarding.

Feasibility

Evaluate the feasibility of your project in terms of time, budget, and available support. Ensure that you have a clear plan for conducting experiments and gathering data.

Ethical Considerations

Be aware of any ethical considerations related to your project, especially if it involves human subjects, animals, or hazardous materials. Ensure that your research adheres to ethical guidelines.

Flexibility

Keep some degree of flexibility in your project plan. Research may take unexpected turns, and being adaptable can help you navigate challenges and make the most of unexpected discoveries.

Passion and Curiosity

Choose a topic that genuinely excites your curiosity. A project driven by passion often leads to more enthusiastic and successful research.

Peer Feedback

Discuss your ideas with peers or fellow students. Their perspectives and feedback can offer valuable insights and help you refine your project concept.

By carefully considering these factors and conducting thorough research, you can select an ideal chemistry project topic that not only aligns with your interests and academic goals but also offers a rewarding and enriching research experience.

Tips for Successful Project Execution

Have a close look at the tips for successful project execution:-

Detailed Planning

Start with a well-structured project plan. Define your objectives, set clear goals, and create a timeline outlining each phase of your project.

Research Extensively

Before conducting experiments, thoroughly research the relevant literature to understand existing knowledge and methodologies related to your topic.

Prioritize safety at all times. Familiarize yourself with safety protocols, wear appropriate protective gear, and handle chemicals and equipment with care.

Experimental Design

Design your experiments carefully, considering variables, controls, and potential sources of error. Consult with professors or advisors for input on your experimental setup.

Data Collection

Maintain accurate and organized records of your experiments, including measurements, observations, and any unexpected results.

Analytical Tools

Utilize appropriate analytical tools and techniques for data analysis. This may involve statistical analysis, spectroscopy, chromatography, or other methods depending on your project.

Troubleshooting

Be prepared to encounter challenges during experiments. Develop problem-solving skills and seek guidance from mentors or colleagues when needed.

Regular Updates

Keep your professors or advisors informed of your progress. Regular meetings can provide valuable feedback and help you stay on track.

Documentation

Create a detailed laboratory notebook or digital records that document your procedures, results, and any modifications made during the project.

Data Interpretation

Analyze your data critically and draw meaningful conclusions. Discuss your findings with mentors and peers to gain different perspectives.

Adaptability

Be flexible in your approach. If your initial experiments do not yield the expected results, be open to adjusting your methods or hypotheses.

Time Management

Manage your time effectively to meet project milestones and deadlines. Avoid procrastination and allocate sufficient time for analysis and report writing.

Communication Skills

Develop strong communication skills to convey your research findings clearly and effectively, both in written reports and oral presentations.

Collaboration

Collaborate with colleagues or fellow students when applicable. Sharing ideas and resources can enhance the quality of your research.

Continuous Learning

Stay updated with the latest developments in your field through scientific journals, conferences, and discussions with experts.

Ethical Conduct

Adhere to ethical guidelines and principles in your research. Ensure that your work is conducted with integrity and honesty.

Feedback Incorporation

Embrace constructive feedback from mentors, peers, or reviewers, and use it to improve your project and research skills.

Celebrate Milestones

Acknowledge and celebrate your achievements and milestones throughout the project. It can boost motivation and morale.

Stay Organized

Maintain a well-organized workspace and records. A tidy and systematic approach can save time and prevent errors.

Reflect and Learn

After completing your project, reflect on your experiences and lessons learned. Consider how you can apply these insights to future research endeavors.

By following these tips and maintaining a dedicated and systematic approach, you can enhance the chances of successful project execution in the field of chemistry.

Benefits of Chemistry Projects for BSC Students

Certainly, here are the benefits of chemistry projects for BSC (Bachelor of Science) students:

Hands-On Experience

Chemistry projects provide students with practical, hands-on experience in conducting experiments, handling chemicals, and using laboratory equipment. This experience is invaluable for future careers in science.

Deeper Understanding

Engaging in research projects allows students to delve deeper into specific areas of chemistry, gaining a more profound understanding of concepts and theories.

Problem-Solving Skills

Projects often involve troubleshooting and problem-solving, honing students’ critical thinking and analytical skills . They learn to overcome challenges and adapt their approaches.

BSC students acquire a wide range of laboratory and research skills, including data collection, analysis, and interpretation. These skills are transferable and valuable in various scientific fields.

Research Ethics

Students learn about research ethics, including responsible conduct and the importance of integrity in scientific inquiry.

Scientific Method

Projects follow the scientific method, teaching students how to formulate hypotheses, design experiments, and draw conclusions based on evidence.

Encouragement to explore unique topics fosters creativity and innovation. Students may discover new approaches or solutions to existing problems.

Interdisciplinary Learning

Chemistry projects often intersect with other scientific disciplines, providing opportunities for interdisciplinary learning and collaboration.

Publication and Presentation

Successful projects can lead to publications or presentations at conferences, enhancing students’ academic and professional portfolios.

Career Preparation

The skills and experiences gained from chemistry projects prepare students for careers in research, academia, industry, or healthcare.

Increased Confidence

Completing a project independently or as part of a team boosts students’ confidence in their abilities to tackle complex scientific challenges.

Projects often involve interaction with professors, mentors, and peers, helping students build a professional network within the scientific community.

Resume Enhancement

A well-executed project can serve as a strong addition to a student’s resume or graduate school application, setting them apart from their peers.

Real-World Applications

Many chemistry projects have real-world applications, allowing students to see the practical relevance of their studies.

Contributions to Knowledge

Students may make meaningful contributions to the field of chemistry by generating new data, theories, or insights.

Personal Fulfillment

Successfully completing a challenging project can provide a sense of personal fulfillment and accomplishment.

Preparation for Advanced Degrees

For those considering postgraduate studies, chemistry projects provide valuable research experience and strengthen applications for advanced degrees.

Critical Evaluation

Students learn to critically evaluate existing literature and research, improving their ability to assess scientific claims and findings.

Teamwork and Leadership

Collaborative projects enhance teamwork and leadership skills, important attributes for any career path.

Life-Long Learning: Engaging in research projects fosters a love for learning and encourages students to continue exploring and discovering throughout their careers.

What is the best topic for chemistry project?

Selecting the right chemistry project topic is crucial for a successful project. The ideal topic should align with your interests, offer access to ample research materials, and be suitable for your skill level and experience.

Here are some ideas to consider for chemistry projects:

Chemical Composition Analysis

Investigate the chemical composition of a commonly used household product. This can provide insights into the ingredients and their properties.

Factors Affecting Chemical Reactions

Explore how various factors, such as temperature or pH levels, impact a chemical reaction. This research can reveal the variables influencing reaction outcomes.

Innovative Compound Synthesis

Develop a novel method for synthesizing a chemical compound. This project offers an opportunity to innovate and create something new.

Material Properties Study

Study the properties of a recently discovered material. This can involve characterizing its physical, chemical, and structural attributes.

Experimental Hypothesis Testing

Design and conduct an experiment to test a scientific hypothesis related to chemistry. This approach allows you to apply the scientific method.

If you find yourself unsure about the right topic, consider seeking suggestions from your teacher or browsing the internet for a wealth of chemistry project ideas.

Remember, the key is to choose a topic that sparks your curiosity and aligns with your abilities, ensuring a rewarding and successful project.

What are hot topics in chemistry?

In the realm of chemistry, 2023 brings forth some scintillating and cutting-edge areas of research:

Sustainable Chemistry

With a laser focus on eco-friendliness, sustainable chemistry aims to birth cleaner chemical processes and products. Think novel catalysts for green energy, inventive techniques for recycling and waste reduction, and biodegradable, non-toxic materials.

Materials Science

This arena is all about crafting and scrutinizing new materials, from polymers to metals, ceramics, and composites. Researchers are fashioning materials for advanced batteries, solar cells, medical devices, and robust, lightweight structural applications.

Biochemistry

At the intersection of chemistry and life itself, biochemistry explores the intricate chemistry of living organisms.

Dive into the study of proteins and enzymes, the development of groundbreaking drugs and therapies, and the engineering of microorganisms to yield valuable products.

Quantum Chemistry

The captivating fusion of quantum mechanics and chemistry gives birth to groundbreaking methods for simulating and predicting molecular properties. Think about the design and synthesis of new materials and the rise of quantum computing.

Artificial Intelligence (AI)

AI’s infusion into the chemistry landscape is revolutionary. It’s shaping the development of next-gen drugs that are both potent and gentle, as well as the creation of robust, lightweight materials.

Moreover, AI is predicting chemical reaction outcomes, optimizing processes, and pushing the boundaries of innovation.

These are just a glimpse into the dynamic world of chemistry research in 2023. It’s a vast and swiftly evolving domain, teeming with opportunities for groundbreaking discoveries and scientific progress.

What is an example of a chemistry topic?

A chemistry topic worth exploring is the impact of temperature on chemical reaction rates. This intriguing area can be probed through experimentation.

Imagine having two identical sets of reactants, each subjected to different temperatures, with the reaction rate meticulously measured at each temperature point.

The data collected can then be plotted on a graph, revealing the relationship between reaction rate and temperature.

This graphical representation can unveil critical insights, including the activation energy of the reaction and how the reaction rate fluctuates at varying temperatures.

Another captivating chemistry topic involves the synthesis of aspirin, a widely used pain reliever. Aspirin can be created through the reaction of acetic anhydride and salicylic acid.

Delving into this process entails carefully combining the two reactants in precise proportions and subjecting them to specific conditions.

The resulting product can then undergo purification and rigorous analysis to ascertain its purity and identity.

These examples merely scratch the surface of the diverse world of chemistry topics. The field encompasses an array of areas ripe for exploration, such as:

  • Unraveling the mysteries of matter’s structure and properties.
  • Exploring the intricacies of chemical bonding.
  • Unearthing the mechanisms behind chemical reactions.
  • Probing the fascinating realms of thermodynamics and kinetics.
  • Delving into the electrifying world of electrochemistry.
  • Mastering the art of analytical chemistry.
  • Navigating the intricate pathways of organic and inorganic chemistry.
  • Investigating the physical forces that drive chemical phenomena.
  • Exploring the chemistry of life itself through biochemistry.

The specific chemistry topic you choose to explore should align with your interests and objectives. If you’re keen on delving deeper into a particular facet of chemistry, consider perusing research papers, articles, and discussions on the subject.

Engaging with your teacher or a knowledgeable chemistry professor can also provide valuable guidance and suggestions.

Which is the best project in MSC chemistry?

Selecting the perfect M.Sc. chemistry project is a crucial step in your academic journey. It should both captivate your interest and pose a satisfying challenge.

Equally important is the feasibility of completing the project within the confines of your program’s time constraints.

Consider these ideas for M.Sc. chemistry projects:

Embark on the creation of a groundbreaking method for synthesizing a chemical compound, pushing the boundaries of chemical innovation.

Material Exploration

Dive into the study of a novel material’s properties, shedding light on its characteristics and potential applications.

Design and execute experiments aimed at testing scientific hypotheses, employing meticulous methods and precise data analysis.

Factors Shaping Reactions

Investigate the intricate dance of different factors, such as temperature or pH levels, on the outcomes of chemical reactions, revealing the secrets of chemical kinetics.

Complex Sample Analysis

Analyze the intricate chemical composition of complex samples like plant extracts or biological fluids, offering insights into the mysteries of nature.

Analytical Advancements

Pave the way for cutting-edge analytical methods capable of detecting or quantifying specific chemical compounds with precision.

Therapeutic Innovation

Design and synthesize a new pharmaceutical or therapeutic agent, potentially impacting healthcare and medicine.

Molecular Insights

Delve deep into the molecular mechanisms underlying biological processes like photosynthesis or cell signaling, unraveling nature’s secrets.

Computational Chemistry

Forge new frontiers in computational chemistry by developing methods to predict the properties of molecules or materials.

Environmental Impact Assessment

Scrutinize the environmental consequences of chemicals or chemical processes, contributing to sustainability efforts.

Champion sustainability by crafting novel chemical processes or products that are gentle on the planet.

If you find yourself uncertain about the ideal topic, engage in discussions with your advisor or other seasoned professors within your department.

They possess valuable insights and can help pinpoint a project that aligns seamlessly with your interests and expertise.

Once you’ve chosen your focus, meticulously craft a research plan. Outline your research question, delineate the research methods, establish a timeline for completion, and identify necessary resources, including equipment, materials, and potential funding.

With your advisor’s approval, embark on your project, keeping detailed records of your work and maintaining regular communication with your mentor.

Upon project completion, compile your findings into a comprehensive thesis or dissertation. Additionally, consider presenting your research at seminars or conferences, sharing your discoveries with the scientific community.

Undertaking an M.Sc. chemistry project is a formidable yet gratifying endeavor. It’s an opportunity to cultivate new skills, conduct independent research, and contribute meaningfully to the realm of chemistry.

In wrapping up, the world of chemistry is like an endless playground for BSC students, filled with intriguing possibilities waiting to be explored.

Think of it as your chance to embark on a captivating adventure where every project is a new chapter in your scientific journey.

Choosing the right topic is your compass, guiding you toward a project that not only aligns with your interests but also fuels your academic ambitions. Remember, it’s not just an academic checkbox; it’s your gateway to an exhilarating exploration.

As you dive into your chosen project, consider it a rendezvous with curiosity, a chance to develop invaluable skills, and an opportunity to contribute your unique brushstroke to the canvas of scientific knowledge.

Throughout this adventure, you’ll navigate the twists and turns of experimentation, data analysis, and the thrill of discovery. Your dedication and inquisitiveness will be your trusty companions on this scientific quest.

In the grand scheme of things, every chemistry project is a stepping stone towards a deeper comprehension of the marvelous world of molecules and reactions.

It’s your invitation to join a community of scientists, explorers of the unknown, and seekers of truth.

So, as you venture forth into your chemistry project as a BSC student, do so with a heart full of excitement and a mind buzzing with questions.

Your journey promises not only academic growth but also the potential to make your mark on the ever-evolving landscape of scientific understanding. Enjoy the ride!

Frequently Asked Questions

How do i choose the best chemistry project topic for me.

Consider your interests, available resources, and relevance to your coursework.

Can I collaborate with professors on a project?

Yes, collaborating with professors can provide valuable guidance and resources.

What are the key skills I can gain from a chemistry project?

Skills include research, experimentation, data analysis, and critical thinking.

Are there any online resources for chemistry project ideas?

Yes, various websites and academic journals offer project ideas.

Where can I find more information on project execution and methodology?

University libraries and online databases are excellent sources for project guidance.

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MSc Organic Chemistry Syllabus & Subjects 2024

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  • MSc Organic Chemistry Syllabus & Subjects Overview

The MSc Organic Chemistry syllabus is a two-year course that focuses on the composition, scientific knowledge of structure, chemical reactions, properties of organic and inorganic compounds, and more. The core and elective MSc Organic Chemistry subjects are incorporated into the course curriculum that also prepares aspirants for the doctorate level. A key component of the  MSc Organic Chemistry course is drawing observations from real-time experiments and implementing them at a real-world level. In addition to general chemical analysis principles, photochemical reactions, and catalytic application, the course provides students with an understanding of various analytical principles.

The MSc Organic Chemistry syllabus and subjects are thoroughly divided into four semesters and include topics such as Synthetic Organic Chemistry, Stereo-Chemistry, Organic Spectroscopy and Synthesis, Reagents in Organic Synthesis, and so on. To be eligible for this course, candidates must have graduated from a recognised university with a minimum average of 50% to 55% aggregate marks in a Science-related field. Furthermore, the MSc Organic Chemistry course curriculum is designed to prepare candidates for a research career. This page discusses all-important details about the MSc Organic Chemistry subjects and syllabus to help students gain an in-depth understanding of the topics they will be studying during their course.

Table of Contents

Msc organic chemistry year wise syllabus, stream wise msc organic chemistry syllabus, detailed msc organic chemistry subjects, msc organic chemistry common subjects for all semesters, msc organic chemistry optional subjects, msc organic chemistry lab subjects, syllabus for msc organic chemistry distance programs, msc organic chemistry entrance exam syllabus, msc organic chemistry important books, msc organic chemistry course structure, faqs about m.sc organic chemistry syllabus.

The MSc in Organic Chemistry course includes practicals as well as various distinctive topics involving both organic and inorganic chemistry. It is a postgraduate programme that minutely analyses sophisticated concepts taught in the BSc Organic Chemistry course. The programme includes a wide range of cores and electives that are thoughtfully designed to make certain that the students completely understand the foundational concepts. The electives are also intended to broaden the programme's focus and inspire them to pursue a research career. The following is a discussion about the semester-wise MSc Organic Chemistry syllabus that aspirants can use for reference.

MSc Organic Chemistry 1st Year Syllabus

The following table outlines the semester-wise MSc Organic Chemistry syllabus for 1st year:

MSc Organic Chemistry 2nd Year Syllabus

Besides MSc Organic Chemistry, numerous students pursue two of its related branches — MSc Inorganic Chemistry and MSc Analytical Chemistry. A master's degree in Inorganic Chemistry consists of subjects such as applications and properties of inorganic compounds such as minerals, metals, organometallic, etc. On the other hand, a master's degree in Analytical Chemistry consists of subjects such as identification, separation, and quantification of artificial as well as natural material chemical components. The following is a discussion about the stream-wise MSc Organic Chemistry syllabus.

MSc Inorganic Chemistry Syllabus

The following table highlights the semester-wise subjects for the MSc Inorganic Chemistry course:

MSc Analytical Chemistry Syllabus

The following table highlights the semester-wise subjects for the MSc Analytical Chemistry course:

The following table outlines a list of detailed MSc Organic Chemistry subjects (both theoretical and technical) along with the topics that will be covered during the course:

The MSc Organic Chemistry courses that have a combination of Physical Chemistry, Organic Chemistry, and Inorganic Chemistry for both theoretical and practical topics are termed common subjects. Most universities offering specialisations in this program incorporate these subjects into their curriculum as core subjects. The following is a list of MSc Organic Chemistry common subjects for all semesters:

  • Bio-organic Chemistry
  • Green Chemistry
  • Heterocyclic chemistry
  • Inorganic Chemistry
  • Molecular rearrangements
  • Organic Chemistry
  • Organic Chemistry Practical
  • Organometallic compounds
  • Physical Chemistry
  • Reagents in Organic Synthesis
  • Spectroscopy

Since students can choose optional subjects based on their preferred interests or professional career objectives, they are also known as elective subjects. Nonetheless, every institution may possibly have a different course curriculum for elective subjects. Listed below are the MSc Organic Chemistry optional subjects:

  • Natural and synthetic products
  • Medicinal Chemistry
  • Experimental Methods in Chemistry
  • Electroanalytical Techniques
  • Applications of synthetic products

Given that they provide candidates with a practical and experienced learning environment, laboratory subjects are an essential part of the curriculum. Choosing the lab subjects offers students an additional opportunity to connect theory to application in real life, enabling them to apply what they have learned to problems both during and after the course of study. The lab subjects for the MSc Organic Chemistry course are listed below.

MSc Organic Chemistry Lab Subjects for 1st Year

  • Organic Chemistry Practical I & II
  • Inorganic Chemistry Practical I & II
  • Physical Chemistry Practical I & II

MSc Organic Chemistry Lab Subjects for 2nd Year

  • Organic Chemistry Practical III 
  • Organic Chemistry Practical IV
  • Organic Chemistry Practical V
  • Organic Chemistry Practical VI

The distance programmes in these specialisations are not offered by many universities in India. Students who are interested in obtaining a master's degree in Organic Chemistry specialisation but do not have time to physically attend the college can opt for this option. The following is the syllabus for MSc Organic Chemistry distance programs referenced from the School of Distance Education, Andhra University, Visakhapatnam, AP.

General Chemistry:  Molecular Spectroscopy, Types of Electronic Transitions in Molecules, Rotational and Vibrational Spectra, and more.

Inorganic Chemistry:  Chemistry of Inner Transition Elements, Oxidation States, Chemistry of Actinides, Determination of Crystal Field Splitting Energy, spectro-photometric Method and pH Metric Method, and so on.

Organic Chemistry: Types of Organic Reactions, Inductive and Metasomatic Effects, Stereochemistry and Stereoisomerism, Chemistry of Heterocyclic Compounds, Chemistry of Some Typical Natural Products, etc.

Physical Chemistry:  Chemical Equilibrium, Kinetics, Thermodynamics, Photochemistry, Electrochemistry, Photolysis, Chain Reactions, and more.

The entrance exams for the MSc Organic Chemistry course provide applicants with an overview of the topics they can study in detail during the course. Some common topics for this exam are Organic Chemistry, Physical Chemistry, Fundamentals of English, etc. Applicants for the MSc Organic Chemistry programme may need to take an entrance examination either conducted by their institution or state. The following is a discussion of the MSc Organic Chemistry entrance exam syllabus.

SVU CET Syllabus: The Sri Venkateswara University Common Entrance Test (SVU CET) includes topics such as Anthropology, Aquaculture, Biochemistry, Biotechnology, Botany, Chemistry, Computer Science, Electronics, Geography, Hydrogeology, Mathematics, Psychology, Physics, Virology, and more.

PGEE Syllabus:  It includes topics such as Orthonormal Set, Cyclic Group, Conditional Probability, Cayley-Hamiltonian Theorem, Fundamental Programming Concepts, Operating Systems, Second order Linear Equations with Constant coe?cients, Linear Independence, etc.

MGU CET Syllabus: It includes topics such as Biochemistry, Logical Reasoning and Numerical Ability, General English, International Trade, Macroeconomics, Current Affairs, Chemistry, Biophysics and Microbiology, and so on.

JMI Syllabus: It includes topics such as Economics, History, Political Science, Sociology, Geography, Biotechnology, Chemistry, Applied Mathematics, Bioscience, and so on.

IIT JAM Syllabus:  Academic subjects included in the  Joint Admission Test for Masters (IIT JAM) are mathematics, geology, biotechnology, economics, physics, chemistry, and statistical analysis. Biochemistry, evolution, plant biology, biochemical procedures, probability, laws of motion, moving charges and magnetic fields, nuclei and nuclear physics, and other subjects are also covered.

AUCET Syllabus:  It includes questions asked from topics such as Statistics, Physical Sciences, Mathematical Sciences, Life Sciences, Humanities and Social Sciences, Geology, Economics, Chemical Sciences, and more.

The MSc Organic Chemistry best books are used by students to enhance their knowledge and comprehension of specific topics and subjects while they are enrolled in the course. Getting the course materials before registering will enable candidates to make informed decisions after carefully reviewing the program's prerequisites. The following are some best books for MSc Organic Chemistry:

  • Vol I to III Enzyme Catalysis in Organic Synthesis by authors K Drauz and H Waldmann
  • Pharmaceutical Organic Chemistry by author Bhasin
  • Organic Synthesis: Strategy and Control by author Paul Wyatt
  • Name Reactions by author Jie Jack Li
  • Biotransformations in Organic Chemistry by author Kurt Faber

As discussed, the MSc Organic Chemistry course is divided into two years or four semesters and incorporates core, elective, and lab subjects. Research is a major component of the syllabus, which contributes significantly to course completion. Those who wish to ace the degree with flying colours must also pay attention to their optional subjects. The following pointers sum up the MSc Organic Chemistry course structure:

  • IV Semester
  • Elective Subject
  • Core Subject
  • Lab Subject

What is the syllabus of the MSc Organic Chemistry course?

The syllabus of the MSc Organic Chemistry course includes topics from both core and elective subjects such as Synthetic Organic Chemistry, Physical Chemistry-II, Physical Chemistry-I, Organic Chemistry-II, Organic Chemistry-I, Organic Chemistry Practical, Medicinal Chemistry, Inorganic Chemistry-II, Inorganic Chemistry-I, Bio-organic Chemistry, and so on.

Which subject is best for MSc Organic Chemistry?

The best subjects for MSc Organic Chemistry cover a wide range of advanced topics in Physics, Mathematics, Chemistry, Biology, etc. However, students who have obtained a BSc in Organic Chemistry or are studying in the final year of their degree can best fit the programme.

Which colleges offer the best curriculum for MSc Organic Chemistry courses?

Colleges that offer the best curriculum for MSc Organic Chemistry courses are Savitribai Phule Pune University, Andhra University, University Of Mysore, Sri Venkateswara University, Jamia Millia Islamia, Aligarh Muslim University, University of Madras, Mahatma Gandhi University, etc.

What is the entrance exam syllabus for MSc Organic Chemistry?

The entrance exam syllabus for MSc Organic Chemistry includes topics such as Logical Reasoning and Numerical Ability, General English, Life Sciences, Humanities and Social Sciences, Geology, Botany, Chemistry, Computer Science, Electronics, and more.

What are the MSc Organic Chemistry subjects for 1st semester?

The MSc Organic Chemistry subjects for 1st semester are basic topics that usually help candidates revise concepts they learned during their graduation. The list of topics includes Physical Chemistry-I, Organic Chemistry-I, Inorganic Chemistry-I, and Stereochemistry and Reaction Mechanism.

What are the MSc Organic Chemistry subjects for 2nd semester?

The MSc Organic Chemistry subjects for 2nd semester cover common subjects that prepare students for the sophisticated ideas they will explore in the remaining courses towards their degree. The list of topics includes Physical Chemistry-II, Organic Chemistry-II, Inorganic Chemistry-II, and Reagents in Organic Synthesis.

What are the MSc Organic Chemistry subjects for 3rd semester?

The MSc Organic Chemistry subjects for the 3rd semester consist of techniques and procedures that help candidates perform the scientific study of carbon-based molecules' structures, compositions, and reactive qualities. The list of topics includes Bio-Organic Chemistry, Organic Chemistry-III, Synthetic Organic Chemistry, Molecular Rearrangements and Heterocyclic Chemistry, Electroanalytical Techniques, and more.

What are the MSc Organic Chemistry subjects for the 4th semester?

The MSc Organic Chemistry subjects for the 4th semester acquaint students with advanced knowledge about organic chemistry compounds they can use to carry out real-time research. The list of topics includes Organometallic compounds, Medicinal Chemistry, Dissertations, and Organic Chemistry Practicals.

Are the MSc Organic Chemistry subjects tough to understand?

No, MSc Organic Chemistry subjects are not tough to understand provided students have good visualisation skills. Simply put, organic chemistry is conceptually more challenging than many biology courses. It is undoubtedly one of the most difficult chemistry classes and each student's experience with the subject is distinctive.

Do the MSc Organic Chemistry subjects incorporate research?

Yes, the MSc Organic Chemistry subjects incorporate research at a minimum level during the last two semesters of the programme as students need to perform projects and internships. Moreover, research will be encouraged throughout the MSc Organic Chemistry course curriculum to increase students' understanding and advance their education.

What are the elective subjects of MSc Organic Chemistry?

The elective subjects of MSc Organic Chemistry include topics such as Natural and synthetic products, Medicinal Chemistry, Experimental Methods in Chemistry, Electroanalytical Techniques, Applications of Synthetic Products, and more.

What are the core subjects of MSc Organic Chemistry?

The core subjects of MSc Organic Chemistry include topics such as Spectroscopy, Reagents in Organic Synthesis, Physical Chemistry, Organometallic compounds, Organic Chemistry Practical, Organic Chemistry, Inorganic Chemistry, Bio-organic Chemistry, etc.

What methodologies and techniques are used to teach MSc Organic Chemistry subjects?

Some methodologies and techniques that are used to teach MSc Organic Chemistry subjects are both traditional in-class instructions and on-field work. However, a strong focus is placed on lab practicals through active learning. The following list enlists the same:

  • Assignments
  • Hands-on Activities
  • Research work

Is project work a part of the MSc Organic Chemistry curriculum?

Yes, project work is a part of the MSc Organic Chemistry curriculum that includes minimum research and hands-on experience. Together with their thesis, students must submit their project at the end of the fourth semester. The term projects for the MSc Organic Chemistry syllabus count towards the main credits necessary at the end of the year for course completion.

What are the best project topics for MSc Organic Chemistry?

The best project topics for MSc Organic Chemistry include the following:

  • Production Of Alkali Using Local Raw Material
  • Synthesis Of Activated Carbon from Enugu Coal
  • The Bleaching of Palm Oil Using Activated Charcoal

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M.Sc Organic Chemistry Syllabus and Subjects

Kripal Thapa

Updated on - Jun 9, 2023

The M.Sc Organic Chemistry syllabus can be divided into four semesters under two years with topics such as Organic Spectroscopy and Synthesis, Synthetic Organic Chemistry, Reaction Mechanism, Stereo-Chemistry, etc. After graduation, there are many job opportunities for candidates to pursue such as Organic Chemist, Development Scientist, and Toxicologist.

Table of Contents

MSc Organic Chemistry First Year Syllabus

Msc organic chemistry second year syllabus.

  • MSc Organic Chemistry Subjects in Detail

M.Sc Organic Chemistry Reference Books

Semester-wise msc organic chemistry syllabus.

The MSc Organic Chemistry syllabus focuses on several special topics which involve both organic and inorganic chemistry along with practicals. Electives are offered only from the second year of the course. In short, the table below highlights the MSc Organic Chemistry Syllabus following the semester-wise system.

In the table given below is MSc Organic Chemistry Syllabus for First Year:

MSc Organic Chemistry First year Practical

In the list given below are MSc Organic Chemistry practicals for the first year:

  • Organic Chemistry Practical I & II
  • Inorganic Chemistry Practical I & II
  • Physical Chemistry Practical I & II

In the table given below is MSc Organic Chemistry Syllabus for Second Year:

MSc Organic Chemistry Second year Practical

In the list given below are MSc Organic Chemistry practicals for the second year:

  • Organic Chemistry Practical III 
  • Organic Chemistry Practical IV
  • Organic Chemistry Practical V
  • Organic Chemistry Practical VI

MSc Organic Chemistry Subjects

The MSc Organic Chemistry subjects are divided into three categories: core subjects,  which cover the  advanced elements of organic compounds and techniques, electives  are skill-based courses which can be either discipline related or based on soft skills and  lab subjects.  Give below are the subjects for MSc Organic Chemistry:

MSc Organic Chemistry Core Subjects

In the list given below are the core subjects for MSc Organic Chemistry:

  • Organic Chemistry
  • Inorganic Chemistry
  • Physical Chemistry
  • Bio-organic Chemistry
  • Spectroscopy 
  • Organic Chemistry Practical  
  • Organometallic compounds
  • Reagents in Organic Synthesis
  • Green chemistry, molecular rearrangements and heterocyclic chemistry

MSc Organic Chemistry Elective Subjects

In the list given below are the elective subjects for MSc Organic Chemistry:

  • Applications of synthetic products
  • Natural and synthetic products
  • Medicinal Chemistry
  • Experimental Methods in Chemistry / Electroanalytical Techniques

MSc Organic Chemistry Lab Subjects

In the list given below are the lab subjects for MSc Organic Chemistry:

MSc Organic Chemistry Subjects In Detail

The MSc Organic Chemistry Subjects focus mainly on practical techniques of organic compounds along with various theoretical topics which are listed in the table given below:

M.Sc Organic Chemistry Course Structure

The M.Sc Organic Chemistry syllabus is designed in a way that the course mainly includes elements of organic chemistry. The course structure involves various aspects which are listed below:

  • Practical Subjects
  • Core Subjects
  • Elective Subjects

M.Sc Organic Chemistry Teaching Methodology and Techniques

M.Sc Organic Chemistry syllabus teaching methodology is designed based on requirements and helps with getting the most exposure regarding the field. The prime focus is given to lab practicals through action-based- learning. In the list below are some of the teaching methodologies for MSc Organic Chemistry:

  • Assignments/Viva-voce
  • Following course module books
  • Research work
  • Internships

M.Sc Organic Chemistry Projects

M.Sc Organic Chemistry syllabus has term projects at the end of the year which account for major credits that are required for passing the course. The projects enable students to discourse all they have learned throughout the year. Mentioned below are some of the project topics for MSc Organic Chemistry.

  • The Bleaching Of Palm Oil Using Activated Charcoal
  • Modification Of Surface, Physical And Chemical Properties Of Activated Carbons For Water Purification
  • Production Of Alkali Using Local Raw Material (Palm Inflorescence)
  • Synthesis Of Activated Carbon From Enugu Coal
  • Desulphurisation Kerosene

To get deep or in-depth knowledge, there are certain books published by -authors, who have opened up about their thought processes, thus helping in being more skilled and knowledgeable about Chemistry and formulas which are a major part of the M.Sc Organic Chemistry Syllabus.

Top M.Sc Organic Chemistry Colleges

msc organic chemistry project topics

Mysore University

Mysore,Karnataka

msc organic chemistry project topics

Madras University

Chennai,Tamil Nadu

msc organic chemistry project topics

Andhra University

Visakhapatnam,Andhra Pradesh

msc organic chemistry project topics

MG University (MGU)

Kottayam,Kerala

msc organic chemistry project topics

NIT Warangal

Warangal,Telangana

msc organic chemistry project topics

Sri Venkateswara University (SVU)

Tirupati,Andhra Pradesh

msc organic chemistry project topics

Kishinchand Chellaram College

Mumbai,Maharashtra

msc organic chemistry project topics

SJC, Bangalore

Bangalore,Karnataka

M.Sc Organic Chemistry Fee Structure

What are the subjects in MSc organic chemistry?

MSc Organic Chemistry subjects include Organic Spectroscopy and Synthesis, Synthetic Organic Chemistry, Reaction Mechanism, Stereo-Chemistry, and Computer Applications etc.

Is MSc chemistry better than MSc organic chemistry?

MSc Organic Chemistry is a specialized branch of MSc Chemistry, with both having equivalent relevance in the industrial field.

Who is eligible for MSc in organic chemistry?

Candidate who have secured 50% or more in their undergraduate degree with Chemistry as their field of study.

Is organic chemistry in demand?

The course is in demand with companies that make pharmaceuticals, consumer goods, and many other products are always looking for organic chemists.

See Various M.Sc Organic Chemistry Colleges in India

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Chemistry Project Topics and Materials PDF Free Download 2024

Chemistry Project Topics and Materials PDF Download

Chemistry project topics and materials PDF & DOC download with seminar work for final year undergraduates and master’s students in the 2024 academic session.

Are you a final year student in need of chemistry project topics and materials? you are on the right page. We have a complete list of chemistry project topics with good research and complete materials ready for download in PDF or DOC format.

Welcome to Eduprojecttopics, your number online academic research library in Nigeria . This article will do justice by listing free project topics on chemistry and affordable research materials for final year students in NCE, OND, HND, BSC, PGDE, MSC, and Ph.D.

Free Chemistry Project Topics and Materials for Final year Students

In our research archive, we have lots of free chemistry project topics, and premium research papers in analytical chemistry, environmental chemistry, inorganic chemistry, petroleum chemistry, physical chemistry, pure chemistry e.t.c. And related research seminar titles and journals for final year students in the chemistry department.

Masters and Ph.D. students can also get their thesis and dissertation chemistry topics on this page. All you need to do is to select your topics below and submit them to your supervisor for approval. Then after approval come back for your complete material.

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Contents of Chemistry Project Material PDF Document

Our chemistry project topics on this website have their complete works and materials ready for instant download in PDF or MS Word format. All chemistry project topics on this website are free and the complete material comes with Chapters 1-5 including the Proposal, Abstract, Introduction, Literature Review, Data Analysis and Presentation , Conclusion, Recommendation, References/Bibliography, and Questionnaires.

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Below is a list of best chemistry project topics and materials PDF documents for students acquiring a degree in the college of education (NCE), National Diploma (ND), Higher National Diploma (HND), Bachelor of Science (BSC), and Master of Science  (MSC

List of Free Chemistry Project Topics and Research Materials PDF for Undergraduates

  • Hypolipidemic And Antioxidant Capacity Of Methanol Leaf Extract Of Kigelia Africana In Alloxan-Induced Diabetic Rats
  • Extraction And Physicochemical Characterization Of Pork Oil
  • Experimental And Computational Studies Of Corrosion In Hibition Potential Of Selected Plant Extracts On Corrosion Of Mild Steel And Aluminium In Acid Medium
  • Evaluation Of The Potentials Of Large Scale Photovoltaic Power Generation For Rural Electrification In Nigeria
  • Evaluation Of Immunomodulatory Effect Of Pausinsytalia Yohimbe Methanol Extract On Mice
  • Evaluation Of Chemical Compositions And Antioxidant Properties Of Mentha Spicata And Cymbopogon Citratus Leaves
  • Environmental Impact Assessment Of Dumpsites In Zaria Metropolis, Kaduna State, Nigeria
  • Effects Of Oxygenates On Neem And Tigernut Oil Methyl Ester
  • Effects Of Impurities On The Heat Absorption And Retention Capacity Of Freshwater
  • Effects Of Aqueous Extract Of Bitter Kola (Garcinia Kola) On The Pregnancy Outcome And Early Postnatal Development Of The Offspring Of Diabetic Pregnant Rats
  • Effect Of Gum Arabic On The Structure-Property Relationship In Poly(Vinyl Chloride
  • Effect Of Chemical Modification On The Surface Characteristics And Some Mechanical Properties Of Sisal Fibres
  • Effect Of Acrylamide Grafted Polyethene Waste On The Physico-Mechanical Properties Of Concrete Composite
  • Determination Of Some Properties Of Blends Of Polystyrene And Modified Epoxidized Soybean Oil Resins
  • Determination Of Some Heavy Metals In Selected Fishes In The Vicinity Of Confluence Of Rivers Niger And Benue In Lokoja, Nigeria
  • Determination Of Some Heavy Metals In Fish And Livestock Feeds, Manure And Rivers In Selected States In Northern Nigeria
  • Determination Of Some Heavy Metals And Investigation Of Nutritional Composition In Three Species Of Snails (Archatinafulica, Archachatina Marginata And Limicolariaflammea)
  • Determination Of Proximate Composition, Mineral Elements, Heavy Metal Levels And Microbial Quality Of Kilishi From Selected Areas In Kaduna State, Nigeria
  • Determination Of Pesticide Residues In Some Vegetables And Heavy Metals In The Vegetables And Soils From Selected Farmlands In Minna, Nigeria
  • Determination Of Heavy Metals And Proximate Analysis In Some Selected Cereals
  • Dehydration Of Ethanol Water Solution Using Activated Starch
  • Computational Studies On The Mechanism Of Bromate Oxidation Of Methionine
  • Chemical Fractionation And Bioavailability Of Selected Heavy Metals In Sediments Of River Challawa, Kano, Nigeria
  • Chemical Analyses Of The Root Barks Of Detarium Microcarpum And Sclerocarya Birrea For Antifeedant And Antimicrobial Properties
  • Characterization And Utilization Of Activated Tamarind Kernel Powder In Industrial Waste — Water Treatment
  • Cationisation Of Cotton And Study Of Kinetics And Thermodynamics Properties Of Its Dyeing With Anionic Dye.
  • Bioactive Natural Products From The Rhizomes Of Ampelocissus Grantii, Cissus Crinita And Cissus Sokodensis (Vitaceae)
  • Assessment Of Vehicular Emissions On Air Quality And Proximate Composition Of Amaranthus Hybridus And Mangifera Indica In Zaria, Nigeria
  • Assessment Of The Quality And Stability Of Ethanol Extracts Of Conoides Miller And Longum Nigrum (Capsicum Annuum).
  • Assessment Of The Competitive Adsorption Of Some Heavy Metal Ions Onto Soil
  • Assessment Of Pumpkin And Balsam Apple Seed Oils As Feedstock For Biodiesel Production
  • Assessment Of Leather Quality Produced By Optimizing Liming And Increasing Reactivity Of Tannins Obtained From Caesalpinia Coriaria And Parkia Clappertoniana
  • Assessment Of Changes In Plasticity And Mechanical Properties Of Polystyrene Fatty Acid Based Neem Oil Blends
  • Assesment Of Groundwater Quality From Boreholes And Hand-Dug Wells Around Obajana Cement Factory And Its Environs In Lokoja, Kogi State, Nigeria
  • Analysis Of Some Essential Mineral Elements And Proximate Composition Of Selected Commercial Baby Foods And Reconstituted Fruit Juices
  • A Krasnoselskii-Type Algorithm For Approximating Solutions Of Variational Inequality Problems And Convex Feasibility Problems
  • The Extraction Of Managanese (Iv) Ion From Aqueous Media Using 1-Phethyl-3-Methyl Pyrazolone-5
  • Renal Protective Effect Of Ginger On Wistar Albino Rat Fed With Drinking Water Containing Nitrate
  • Isolation And Preliminary Characterisation Of Column Eluates From The Leaf Of Vernonia Amygdalina
  • Effect Of Contact Time On The Adsorption Of Methylene Blue Onto Almond Shell
  • Comparative Physico-Chemical Analysis Of Sealed And Road Side Engine Oils Sold Within Port Harcourt, Rivers State, Nigeria
  • Bioremediation Of Oil-Contaminated Soil Using Emulsifier (Liquid Soap), Npk Fertilizer And Microbial (Bacillus Sp) Treatment
  • Phytochemical And Antimicrobial Studies Of The Methanol Extract Of The Root Of Napoleonaea Heudelotti (A.Juss)
  • Phytochemical And Antimicrobial Screening of The Stem Bark Extract(S) Ofindigofera Arrectahochst Ex A. Rich(Fabaceae)
  • Optimization Of Biodiesel Production From Yellow Oleander And Castor Oils And Studies Of Their Fuel Properties
  • Studies On The Impact Resistance Of Cashew Nutshell Powder And Calcium Carbonate Filled Polypropylene
  • Isolation And Characterization Of Bioactive Compounds From Stembark Extract Of Uapaca Pilosa Hutch
  • Evaluation Of Some Heavy Metals Concentrations In Chocolate, Candies And Tomato Puree Imported From China
  • Evaluation Of Some Chemical Constituents Of Selected Energy Drinks
  • Effect Of Acrylic Polymer Dispersions On Water Vapour Permeability And Some Other Physical Properties Of Finished Leathers
  • Assessment Of Eutrophication Level Of Municipal Surface Water, Abuja Nigeria
  • Use Of A Surfactant In The Spectrophotometry Determination Of Trace Amounts Of Nickel
  • Trace Metal Risk Assessment In Vegetable Crops Irrigated With Sewage Water And Sludge Along Kubanni River Drainage Basin In Zaria Metropolis, Nigeria
  • Total Alkaloids, Total Tannins Content And Antiulcer Assay Of Four Selected Medicinal Plants.
  • The Physico-Mechanical And Morphological Properties Of -Cellulose-Filled Polystyrene (Ps) And Polyvinyl Acetate (Pvac) Blends
  • The Effect Of Varying Metal Ion Concentration In Soil On Accumulation Of The Ions In Parts Of Some Vegetables
  • The Effect Of Substituents On T he Spectrscopic And Dyeing Properties Of M O N O A Z O A N D Methine Dyes
  • The Development And Evaluation Of Analytical Procedures For The Determination Of Heavy Metals In Industrial Effluents
  • The Chemical Studies Of The Tannins Of The Exudate Of The Plant Eucalyptus Citriodora, Myrtaceae Hook And The Tanning Properties
  • Synthesis, Formulation And Characterization Of Phenol Formaldehyde/Chitosan Composites
  • Synthesis, Characterization And Preliminary Antimicrobial Studies Of Some Schiff Base Ligands And Their Co(Ii), Mn(Vii), Mo(Vii) Complexes
  • Synthesis, Application And Antimicrobial Properties Of Azo Dyes Derived From 2-Aminothiophene And Conventional Amines As Diazo Components By Osazee Bright
  • Synthesis And Dyeing Properties Of Metallisable And Non Metallisable Acid Dyes
  • Synthesis And Characterization Of Bentonite Clays Modified With Cetyltrimethylammonium Bromide For The Treatment Of Crude Oil Pollution In Water
  • Survey Of Ondo Traditional Hand Woven Fabrics And Their Modifications To Suit Contemporary Fashion Trends In Nigeria
  • Studies On The Chemical Constituents Of The Leaves And Seeds Of Hyptis Spicigera Lam
  • Studies On Biogas And Bioliquid Production By Fungal Degradation Of Banana (Musa Sapientum) Leaves
  • Structure-Property Relationships Of Castor Oil-Based Polyurethane Foams
  • Some Neuropharmacological Studies On Ethanol Extract And Fractions Of Tapinanthus Globiferus A. Rich Mistletoe On Vitellaria Paradoxa Host In Laboratory Animals
  • Seasonal Concentration Of Some Heavy Metals In Vegetable Crops And Associated Soils Along Hunkuyi Road, Zaria, Nigeria
  • Removal Of Naphthalene From Synthetic Wastewater By Simultaneous Adsorption-Biodegradation (Sab) Using Bacteria Immobilized Snail Shell
  • Quantum Modelling Of The Toxicities Of Some Polychlorinated Aromatic Compounds
  • Quantum Modeling Of Some Coumarin And Neolignans Derivatives As Antimicrobial Compounds Against Candida Albicans And Epidermophyton Floccosum
  • Quality Assessment Of Some Selected Toothpastes Used In Nigeria.
  • Preparation Of Acid Activated Carbon From Dog Teeth Sample Using Two Moles Of Citric Acid (0.5m And 1m) At High Temperature
  • Product Life Cycle And Environmental Impact Assessment Of 7up Bottle
  • Pollutants In Air And Heavy Metals In Street Dust Of Some Selected Locations In Zaria
  • Phytoextraction Of Some Heavy Metals From Selected Metal Dumpsites In Zaria, Nigeria
  • Phytochemical Screening And Antimicrobial Analysis Of The Crude Extracts Of The Aerial Part Of Aeschynomene Uniflora .Mey (Fabaceae)
  • Phytochemical And Medicinal Properties Of Extracts Of The Leaves Of Peucedanum Winkleri H. Wolff
  • Phytochemical And Antimicrobial Studies Of The Root Bark Extracts Of Acacia Ataxacantha Dc (Fabaceae)
  • Phytochemical And Antimicrobial Screenning Of The Whole Plant Of Aeschynomene Schimperi Hochst.Ex A. Rich.
  • Physicochemical, Spectroscopic And Rheological Studies Of Irvingia Gabonensis (O’rorke) Baill And Celtis Zenkeri (Esa) Engl Gum Exudates
  • Physicochemical And Heavy Metal Assessment Of Water From Selected Boreholes In Kaura-Namoda Local Government Area, Zamfara State, Nigeria
  • Physico-Chemical Analysis Of Some Selected Water Sources Around The Waste Treatment Plant Of Ahmadu Bello University Teaching Hospital Zaria, Nigeria
  • Optimization Of Biodiesel From Coconut (Cocos Nucifera) Seed Oil
  • Nutritional And Antinutritional Analysis Of The Seed And Seed Oil Of Citrullus Ecirrhosis (Wild Melon)
  • Modification, Characterisation And Application Of Coconut Wastes As Fillers In Rubber Compounding
  • Levels Of Lead, Cadmium And Chromium In Blood, Urine, Nail And Hair Samples Of Electronic Repairers In Kaduna Metropolis, Nigeria
  • Kinetics Study Of The Adsorption Of Mucin Onto Titanium Surface
  • Kinetics And Mechanisms Of The Redox Reactions Of Crystal Violet With Some Oxyanions In Aqueous Acidic Medium
  • Kinetics And Mechanisms Of The Redox Reactions Of 2,6-Dichlorophenol Indophenol With Oxyanions, Hydrazine And Hydrogen Peroxide In Aqueous Medium
  • Kinetics And Mechanisms Of The Electron Transfer Reactions Of Diaquotetrakis (2, 2’- Bipyridine)-Μ-Oxodiruthenium(Iii) Ions And Some Reductants In Aqueous Medium
  • Kinetics And Mechanisms Of Catalysed Reduction Of Aminocarboxylato-Cobalt(Iii) Complexes By L-Ascorbic Acid And Hydrazine In Aqueous Acidic Medium
  • Treatment Of Hospital Wastewater Using Activated Carbon From Neem (Azadirachta Indica) Husk And Seed Cake
  • Trace Metal Levels In Fruits Of Anarcadium Occidentalis From Waste-Impacted Soil In Uyo, Nigeria
  • The Relationship Between Anaemia, Malaria And Antioxidant Status In Patient Visiting Enugu State University Teaching Hospital “Esuth”
  • The Morphological And Phytochemical Characteristics Of Laportea Aestuans (L.) Chew And Laportea Ovalifolia (Schumach.)
  • The Electron Transfer Reactions Of 3,7-Bis(Dimethylamine)Phenothionium Chloride (Methylene Blue) With Oxyanions In Aqueous Acidic Medium
  • The Effect Of Temperature, Catalysis, And Dielectric Constant In The Kinetics Of The Oxidation-Reduction Reactions Of [N-(2-Hydroxy-Ethyl)Ethylenediamine-N’,N’,N’,-Triacetato Cobalt (11)] By Cu2+ Cation.

MSC Chemistry Project Topics for Masters Thesis Students

  • The Effect Of Buccholzia Coriacea On Renal Function Indices And Oxidative Stress In Sucrose Fed Pregnant Rats And Their Offsprings
  • The Corrosion Of Mild Steel In H2so4 Solution By Maesobotrya Barteri Extract Using Weight Loss Method
  • Synthesise And Characterise Copper (Ii) Complex Of Schiff Base Ligand Derived From 5-Amino-3-Methyl-1-Phenylpyrazole And 2-Hydroxy-1-Naphthaldehyde
  • Synthesis, Characterization, Antimicrobial And Anti-Inflammatory Investigations Of Acetaminophen Complexes Of Cu(Ii), Mg(Ii) And Zn(Ii) Ions
  • Synthesis, Characterization And Evaluation Of Biological Activity Of Some Metal (Ii) Complexes Of L-Methionine And L-Leucine
  • Synthesis And Isomorphous Substitution Reactions Of Some Hydroxyapatites
  • Synthesis And Characterization Of Biodiesel Using Waste Cooking Oil And Calcium Oxide From Welders Slurry
  • Synthesis And Application Of Squarylium Dyes On Polyester And Nylon 6 Fabrics
  • Studies On The Neuropharmacological Properties Of The Methanolic Extract Of Ficus Platyphylla Stem Bark.
  • Studies On The Chemical Constituents Of The Leaves And Seeds Of Hyptis Spicigera Lam.
  • Studies On The Bleaching Characteristics Of Some Nigerian Clay
  • Studies Of Physical And Mechanical Properties Of Unsaturated Polyester Resin Hybrid Composites Reinforced With Jute Fibre And Maize Cob Particles
  • Spectroscopic Studies And Kinetics Of Cyclisation Of N-Carbobezoxy-L–Amino Acids With Ethanoic-Anhydride.
  • Some Neurochemical Changes Associated With Canabis Sativa (Cannabinaceae) Administration On Learning And Memory In Mice.
  • Retrospective Study On The Electrolytes Status Of Puerperal Women With Peripartal Cardiac Failure In Northern Nigeria
  • Removal Of Some Heavy Metals From Contaminated Soils Using Two Complexing Agents
  • Removal Of Heavy Metal Ions From Waste Water Using A Groundnut Shell And Tea Bag As A Natural Adsorbent
  • Quantum Modelling Of Some Potent, Non-Toxic Antimalarial Compounds
  • Quantitative Determination Of Trace Metals And Sulphur Content In Nigerian Petroleum Products Using Aas And Gravimetric Analysis Technique
  • Production Of Plain Woven Fabrics From Flax/Cotton Blend Yarns And Study Of Their Properties
  • Preparation, Characterisation And Evaluation Of Hydroxyapatite-Sodium Alginate Nanocomposites For Application In Anticancer Drug Delivery
  • Preparation And Studies Of Biodiesels From Thevetia Peruviana (Yellow Oleander) Seed Oil And Sus Domesticus (Pig) Lard
  • Political Parties And Internal Democracy In Nigeria: An Assessment Of Congress For Progressive Change (Cpc) In Katsina State, 2009–2012
  • Phytochemical Screening, Proximate Analysis And Nutrient Evaluation Of Thaumatoccocus Daniellii (Sweet Prayers Leaves) And Musa Accuminata (Banana Leaves)
  • Phytochemical Screening And Antimicrobial Activity Of Ficus Sycomorus Leaves
  • Phytochemical And Antimicrobial Studies Of The Stembark Extract Of Erythrophleum Africanum (Welw. Ex Benth) Harms
  • Phytochemical And Antimicrobial Screeningof The Stem Bark Extract(S) Ofindigofera Arrectahochst Ex A. Rich(Fabaceae)
  • Physicochemical And Rheological Modeling Of Synergistic Interaction Of Some Plant Gum Exudates.
  • Physico-Chemical And Heavy Metals Assessment Of ‘Nzu Clay’ And Its Effect On Hairs Of Consumers
  • Optimisation Of Bioethanol Production From Some Plants Waste Using Acids Pretreatment
  • Oxidative And Biochemical Parameter Assessment For Alloxan Induced Diabetic Rats Treated With Methanol Leaf Extracts Of Ocimum Gratissimum.
  • Molecular Modelling And Dynamic Simulation Of Some Corrosion Inhibitors In Acidic Medium
  • Modification Of Emulsion Paint Using Chitosan-Grafted-Acrylic Acid
  • Level Of Heavy Metals And Their Bioavailability In Soil In Kakuri Industrial Area Of Kaduna, Nigeria
  • Kinetics And Mechanisms Of The Redox Reactions Of Crystal Violet With Some Oxy-Anions And Hydrazine Dihydrochloride In Aqueous Medium
  • Kinetics And Mechanisms Of The Oxidation Of Aminocarboxylatocobaltate(Ii) Complexes By Hypochlorite And Silver-Catalysed Persulphate Ions In Aqueous Acidic Medium
  • Kinetics And Mechanisms Of Redox Reactions Of Tetrakis(2,2′-Bipyridine)-Μ-Oxodiiron(Iii) Complex And Some Reductants In Aqueous Hydrochloric Acid
  • Kinetics And Mechanism Of Electron Transfer Reactions Of Mixed –Valence Di -Μ- Oxo Tetrakis (1,10-Phenanthroline) Di Manganese (Iii,Iv) Ion And Rosaniline Hydrochloride With Some Reducing Agents
  • Kinetic Studies Of The Reaction Of Formaldehyde With Plasma Albumin In Water And Ethanol — Water Mixtures
  • Isolation Of Chemical Constituents, Antibacterial Studies Of The Leaves Of Globimetulaoreophila (Oliv.) Van Tiegh And Potential Combination Effect With Ciprofloxacin
  • Isolation And Characterization Of Medicinal Principles Of Pouteria Alnifolia Baker Roberty (Sapotaceae)
  • Isolation And Characterization Of Bioactive Compounds From The Aerial Parts Of Maesobotrya Barteri [Hutch
  • Isolation And Characterisation Of Bioactive Compounds From Leaf Extract Of Combretum Lamprocarpum (Diels)
  • Isolation And Characterisation Of Antituberculosis Compounds From The Leaves Of Clerodendrum Capitatum (Wild), Heeria Insignis (Del) And Stem Bark Of Psorospermum Senegalense (Spach)
  • Investigation Of The Pancreatic Effect Of Buccholzia Coricacea Formulated Diet In Sucrose Fed Pregnant Rats And Their Offspring
  • Inhibition Of The Corrosion Of Mild Steel And Aluminium In Acidic Media By Some Purines
  • Hypolipidemic And Antioxidant Capacity Of Methanol Leaf Extract Of Kigelia Africana In Alloxan Induced Diabetic Albino Rats.
  • Extraction, Characterization And Coloration Of Nanocrystalline Cellulose From Corn Cob
  • Extraction And Characterization Of Manganese Peroxidase (Mnp) From Rigidoporuslignosus, A White Root Rot Fungi Of Rubber Tree.
  • Experimental And Computational Chemistry Simulation Studies On The Corrosion Inhibition Potentials Of Some Amino Acids
  • Evaluation Of Levels Of Heavy Metals In Soil And Well Water Within Selected Automobile Mechanic Workshops In Lokoja, Nigeria
  • Evaluation Of Iodine Content Of Some Commonly Consumed Foods In Zaria Metropolis, Nigeria.
  • Evaluation Of Greenhouse Gases Levels In Ambient Air At Selected Roads Intersections In Kano Metropolis, Nigeria.
  • Ethanol Production From Yam Peels
  • Effects Of Microbial Fermentation On The Proximate, Mineral And Antinutritional Constituents Of Selected Varieties Of Cassava Products
  • Effects Of Depths Of Some Wells And Proximity To Rivers Niger And Benue On Water Quality In Lokoja, Nigeria
  • Effect Of Momordica Charantia Leaf Fractions On Serum Electrolytes And Renal Function Indices In Alloxan-Induced Diabetic Albino Rats.
  • Distribution Of Metal Contaminants In Azare Groundwater System
  • Determination Of The Levels Of Trace Elements In Some Canned Foods
  • Determination Of Some Heavy Metals Uptake In Amarantus Hybridus Grown On Soils Obtained From The Bank Of River Niger, Lokoja, Nigeria
  • Determination Of Some Heavy Metals In Kainji Lake
  • Determination Of Some Heavy Metals In Dumpsite Soil And Abelmochus Esculentus Fruit Grown Near Dumpsites In Kafanchan Metropolis, Kaduna State, Nigeria
  • Determination Of Soil Physico-Chemical Parameters And Assessment Of The Nutritional Status Of Cultivated Hibiscussabdariffa (L.)At Different Growthconditions And Stages
  • Determination Of Polychlorinated Biphenyl Residues In Soil Of Selected Transformer Maintenance Workshops In Kaduna And Zaria Metropolis, Nigeria
  • Determination Of Organochlorine Pesticides In Cattle Liver Obtained From Zango, Zaria-Nigeria.
  • Design And Construction Of An Alcohol Detector In A Person Through Breathe
  • Computational Study Of The Reaction Mechanisms Of Iodine Molecule With Some Hydrazines And Biomolecules
  • Compatibility Studies On Solution Of Polystyrene /Poly (Methyl Methacrylate) And Poly (Vinyl Chloride) / Poly (Methyl Methacrylate) Blends Using Viscometry, Fourier Transforms Infrared Spectroscopy And Density Methods
  • Comparative Evaluation Of Direct Fermentation And Simultaneous Saccharification And Fermentation Of Post Harvest Pineapple And Watermelon Waste Fruit For The Production Of Bioethanol
  • Chemical Analysis Of Moringa Oleifera (Lam), Detarium Microcarpum (Guill And Perr) And Bauhinia Monandra (Kurz) Seeds For Nutrient And Antinutrient Factors
  • Chemical Analyses Of Ceratotheca Sesamoides Endl, Vernonia Amygdalina Del, Corchorus Olitorious, Corchorus Tridens, Momordica Charantia And Senna Occidentalis Linn
  • Characterisation Of Clay Deposit In Gwandu Town Of Kebbi State And Its Potential In Ceramic Production
  • Blend Of Soda-Lime Silicate And Borosilicate Waste Glass For Partial Replacement Of Cement In Concrete
  • Bioassay-Guided Evaluation Of Anti-Tuberculosis And Phytoconstituents In Extracts Of Guiera Senegalensis (J.F. Gmel), Scoparia Dulcis (Linn) And Pulicaria Crispa (Forssk)
  • Assessment Of Water Quality In Wells Located Near Abandoned Indigodyeing Pits In Zaria City, Nigeria
  • Assessment Of The Quality Of Soaps Produced From Blends Of Butyrospermum Parkii Fruit Oil (Shea Butter), Sesamum Indicum (Sesame) Seed Oil And Tallow
  • Assessment Of The Proximate, Phytochemical, Nutritional And Antinutritional Composition In Borreria Stachydea (Dc)Hutch And Dalziel, Cassia Absus Linn And Aspillia Kotschyi (Sch.Bipex,Hochst)Oliv
  • Assessment Of Some Heavy Metals And Organic Contaminants Level Around Some Selected Hospitals And Municipal Dumpsites In Kaduna Metropolis, Nigeria
  • Assessment Of Pollution Status In Asha And Saboeregi Mining Areas Of Niger State, Nigeria
  • Assessment Of Groundwater Quality From Boreholes And Hand-Dug Wells Around Obajana Cement Factory And Its Environs In Lokoja, Kogi State, Nigeria.
  • Analysis Of Three Varieties Of Pepper For Ascorbic Acid And Some Essential Minerals
  • Adsorption Of Selected Heavy Metals On Activated Carbon Prepared From Plantain (Musa Paradisiacal.) Peel
  • Isolation, characterisation and antimicrobial activity of bioactive constituents from the leaf extract of adenodolichos paniculatus (hua) hutch. & dalz (fabaceae)
  • Isolation And Characterization Of Four Bioactive Triterpenoids From Mucuna Pruriens (Dc) (Fabaceae) And Canarium Schweinfurthii (Engl) (Burseraceae)
  • Isolation And Characterization Of Bioactive Compounds From Stembark Extract Of Uapaca Pilosahutch
  • Isolation And Characterisation Of Bioactive Principles From Raphia Africana (Otedoh)
  • Isolation And Characterisation Of Bioactive Compound From The Root Bark Of Ficus Sycomorus (Linn)
  • Invitro Study Of The Removal Of Copper, Lead And Zinc From The Human Blood Plasma Using Allium Cepa
  • Investigation Of Some Heavy Metals In Water, Soil And Spinach Samples From Farmlands Surrounding Kwari Pond, Kwangila Zaria

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Inorganic Chemistry Project Topics And Materials (PDF/DOC)

Best inorganic chemistry project topics and research materials/ideas (pdf/doc):, here is the list of best/latest inorganic chemistry project topics and research materials/ideas for students:.

Phytochemical Analysis And The Anti- Inflammatory Activities Of Methanol Extract Of Crateva Adansonii. .

Phytochemical Analysis And The Anti- Inflammatory Activities Of Dichloromethane Fraction Of Methanol Extract Of Crateva Adansonii. .

Phytochemical And Anti-Inflammatory Properties Of Methanol Extract Of Crateva Adansoni Stem Bark. .

Oxidative Stress Status Of Rats Fed On Oil Bean Seed Meal. .

Effect Of Processing Method On The Physio Chemical Properties Of Sweet Potato And Sorghum. .

Project Topics And Research Areas In Inorganic Chemistry

Here is the list of topics and research areas for projects in inorganic chemistry:.

  • Inorganic chemistry offers a vast array of project topics and research areas that delve into the properties, structures, and reactions of inorganic compounds.
  • One prevalent area of study is coordination chemistry, focusing on the synthesis and characterization of coordination compounds, metal complexes, and their applications.
  • Another compelling topic is bioinorganic chemistry, which explores the role of metal ions in biological systems, including metalloproteins, metalloenzymes, and metal-based drugs.
  • Materials chemistry is a diverse field within inorganic chemistry, encompassing the design, synthesis, and characterization of functional materials such as semiconductors, catalysts, and nanomaterials.
  • Catalysis is a crucial research area, investigating the mechanisms of catalytic reactions and developing new catalysts for industrial processes, environmental remediation, and energy conversion.
  • Organometallic chemistry examines compounds containing metal-carbon bonds, studying their reactivity, structure, and applications in organic synthesis, catalysis, and materials science.
  • Solid-state chemistry focuses on the synthesis, structure, and properties of crystalline materials, including metal oxides, sulfides, and intermetallic compounds, with applications in electronics, magnetism, and energy storage.
  • Nanotechnology is an interdisciplinary field that exploits the unique properties of nanoscale materials, offering opportunities for research in areas such as nanocatalysis, nanoelectronics, and nanomedicine.
  • Supramolecular chemistry investigates the non-covalent interactions and self-assembly processes that lead to the formation of complex molecular structures, with applications in materials science, drug delivery, and sensors.
  • Inorganic photochemistry explores the light-induced processes occurring in inorganic compounds, including photoredox reactions, photocatalysis, and photovoltaics, with implications for solar energy conversion and environmental remediation.
  • Environmental inorganic chemistry investigates the fate, transport, and transformation of inorganic pollutants in natural and engineered systems, addressing issues such as water quality, soil contamination, and air pollution.
  • Main group chemistry focuses on the elements of groups 1, 2, and 13-18 in the periodic table, exploring their bonding behavior, reactivity, and applications in areas ranging from materials science to medicinal chemistry.
  • Transition metal chemistry studies the properties and reactivity of transition metals and their compounds, including coordination complexes, organometallic compounds, and metal clusters, with applications in catalysis, medicine, and materials science.
  • Lanthanide and actinide chemistry investigates the unique properties of the f-block elements, including their electronic structure, magnetism, and coordination chemistry, with applications in lighting, imaging, and nuclear technology.
  • Inorganic polymer chemistry deals with the synthesis, structure, and properties of polymers containing inorganic elements, such as silicones, boron-based polymers, and metallopolymers, with applications in coatings, adhesives, and biomedical materials.
  • Computational inorganic chemistry utilizes theoretical methods and computer simulations to study the structure, bonding, and reactivity of inorganic compounds, complementing experimental efforts and providing insights into complex chemical phenomena.
  • Bio-inspired inorganic chemistry draws inspiration from biological systems to design and synthesize functional inorganic materials and catalysts, mimicking the efficiency and selectivity of biological processes for applications in energy, sensing, and medicine.
  • Inorganic spectroscopy employs various spectroscopic techniques, such as UV-visible, infrared, and X-ray spectroscopy, to elucidate the electronic structure, coordination environment, and reactivity of inorganic compounds, aiding in their characterization and analysis.
  • Green chemistry principles guide research in the development of sustainable synthetic methodologies for inorganic compounds, minimizing waste generation, energy consumption, and environmental impact throughout the synthesis and utilization processes.
  • Chiral inorganic chemistry focuses on the synthesis and characterization of chiral inorganic compounds and materials, exploring their asymmetric catalytic properties and potential applications in enantioselective synthesis and sensing.
  • Inorganic materials for energy storage and conversion encompass research on battery materials, fuel cells, and solar cells, aiming to develop efficient and cost-effective technologies for energy storage, conversion, and utilization.
  • Metal-organic frameworks (MOFs) are a class of porous materials composed of metal ions or clusters connected by organic ligands, offering tunable structures and properties for applications in gas storage, separations, and catalysis.
  • Inorganic nanomaterials exhibit unique physical and chemical properties at the nanoscale, enabling applications in areas such as sensing, imaging, drug delivery, and environmental remediation, with ongoing research in synthesis, characterization, and functionalization.
  • Inorganic medicinal chemistry explores the design and synthesis of metal-based drugs and diagnostic agents for the treatment and detection of diseases, leveraging the unique properties of metal ions for targeted therapies and imaging modalities.
  • Inorganic surface chemistry investigates the structure, reactivity, and properties of solid surfaces and interfaces, playing a crucial role in heterogeneous catalysis, corrosion protection, and nanomaterials synthesis.
  • Metalloenzymes are enzymes containing metal ions as cofactors, catalyzing a diverse range of biological reactions with high efficiency and selectivity, providing inspiration for the design of biomimetic catalysts and therapeutic agents.
  • Photocatalysis utilizes light to drive chemical reactions on the surface of semiconductor materials, offering environmentally friendly routes for organic synthesis, water splitting, and pollutant degradation, with potential applications in sustainable chemistry and energy.
  • Inorganic sensors and probes employ inorganic materials and complexes as sensing elements for detecting analytes in biological, environmental, and industrial samples, offering rapid, selective, and sensitive detection methods for various applications.
  • Inorganic thin films are functional coatings deposited on surfaces with controlled thickness and properties, finding applications in electronics, optics, sensors, and protective coatings, with ongoing research in deposition techniques and film characterization.
  • Inorganic crystal engineering aims to design and control the assembly of molecular building blocks into crystalline materials with desired structures and properties, enabling the rational design of functional materials for diverse applications.
  • Inorganic coordination polymers are extended networks of metal ions interconnected by organic ligands, exhibiting intriguing structural diversity and properties for applications in gas storage, catalysis, and separation processes.
  • Inorganic hydrides are compounds containing hydrogen and other elements, exhibiting diverse properties such as high hydrogen storage capacity, conductivity, and catalytic activity, with potential applications in hydrogen storage, fuel cells, and chemical synthesis.
  • Metalloclusters are nanoscale assemblies of metal atoms stabilized by ligands, exhibiting unique electronic, magnetic, and catalytic properties, with applications in electronics, photonics, and catalysis.
  • Inorganic nanoparticles are colloidal particles with dimensions ranging from 1 to 100 nanometers, offering tunable properties for applications in imaging, drug delivery, sensing, and catalysis, with ongoing research in synthesis, functionalization, and characterization.
  • Inorganic membranes are selective barriers composed of inorganic materials, offering efficient separation and purification processes in applications such as gas separation, water purification, and fuel cells, with ongoing research in membrane synthesis and design.
  • Inorganic nanocomposites combine inorganic nanoparticles with organic or inorganic matrices, offering enhanced properties such as mechanical strength, conductivity, and catalytic activity, for applications in electronics, coatings, and biomedical devices.
  • Inorganic zeolites are crystalline aluminosilicate materials with regular porous structures, offering high surface area and selectivity for applications in adsorption, catalysis, and ion exchange processes, with ongoing research in zeolite synthesis and modification.
  • Inorganic sensors for environmental monitoring utilize inorganic materials and sensing mechanisms to detect and quantify pollutants, pathogens, and environmental parameters in air, water, soil, and food samples, contributing to environmental protection and public health.
  • Inorganic photonics encompasses research on the interaction of light with inorganic materials and devices, enabling applications in optical communications, sensing, imaging, and photovoltaics, with ongoing research in photonic materials and device design.
  • Inorganic waste treatment technologies employ inorganic materials and processes for the remediation and detoxification of hazardous wastes, contributing to environmental sustainability and human health protection through effective waste management strategies.

Good Inorganic Chemistry Final Year Project Topics

Here is the list of good/free project topics in inorganic chemistry:.

  • Synthesis and characterization of novel metal-organic frameworks (MOFs) for gas storage applications.
  • Investigating the catalytic activity of transition metal complexes in organic transformations.
  • Design and synthesis of new ligands for coordination chemistry.
  • Understanding the electronic structure of lanthanide complexes for potential applications in luminescent materials.
  • Exploration of metal-catalyzed C-H activation reactions for the functionalization of organic compounds.
  • Study of the reactivity of organometallic compounds in the presence of different ligands.
  • Development of efficient catalysts for water splitting to produce hydrogen.
  • Investigation of metalloenzymes for potential bioinorganic applications.
  • Synthesis and characterization of metal nanoparticles for catalysis.
  • Design and study of metal-based drugs for anticancer applications.
  • Development of new coordination polymers with interesting magnetic properties.
  • Investigation of metal chelates for their use in imaging agents in medical applications.
  • Synthesis and characterization of metal carbonyl complexes and their reactivity studies.
  • Study of metal-containing supramolecular assemblies for their potential in sensing applications.
  • Design and synthesis of metal-containing dendrimers for targeted drug delivery.
  • Investigation of the role of metal ions in biological systems.
  • Development of new strategies for the immobilization of metal catalysts on solid supports.
  • Study of metalloporphyrins for their catalytic applications in oxidation reactions.
  • Exploration of new ligands for the stabilization of low-valent metal complexes.
  • Synthesis and characterization of metal selenide and telluride nanoparticles.
  • Investigation of metal-organic polyhedra (MOPs) for their structural and functional properties.
  • Development of metal-organic cages for selective gas adsorption.
  • Study of metal complexes with nitrogen-based ligands for their role in nitrogen fixation.
  • Synthesis and characterization of metal-containing ionic liquids.
  • Investigation of metal-containing zeolites for catalytic applications.
  • Design and study of metal-containing calixarenes for their potential in sensing and recognition.
  • Development of metal-based catalysts for green and sustainable chemical processes.
  • Study of the coordination chemistry of main group elements.
  • Synthesis and characterization of metal complexes with phosphorus-based ligands.
  • Investigation of metal-containing nanoparticles for environmental remediation.
  • Design and study of metal-containing polymers for electronic applications.
  • Development of metal-organic cages for encapsulation and release of guest molecules.
  • Study of metal complexes with N-heterocyclic carbenes for catalytic applications.
  • Synthesis and characterization of metal-containing dendritic polymers.
  • Investigation of metal-containing nanomaterials for photovoltaic applications.
  • Design and study of metal-containing macrocycles for their supramolecular properties.
  • Development of metal-based catalysts for the conversion of biomass into valuable chemicals.
  • Study of metal complexes with crown ethers for their role in ion recognition.
  • Synthesis and characterization of metal-containing nanoparticles for antimicrobial applications.
  • Investigation of metal-organic frameworks (MOFs) for drug delivery applications.
  • Design and study of metal-containing rotaxanes and catenanes.
  • Development of metal-based catalysts for asymmetric synthesis.
  • Study of metal complexes with pincer ligands for catalytic applications.
  • Synthesis and characterization of metal-containing liquid crystals.
  • Investigation of metal complexes with sulfur-based ligands for their coordination chemistry.
  • Design and study of metal-containing dendrimers for sensing toxic gases.
  • Development of metal-organic frameworks (MOFs) for the capture and storage of greenhouse gases.
  • Study of metal complexes with boron-based ligands for catalysis.
  • Synthesis and characterization of metal-containing hydrogels for biomedical applications.
  • Investigation of metal complexes with phosphorescent ligands for OLED applications.
  • Design and study of metal-containing coordination polymers for gas separation.
  • Development of metal-based catalysts for the conversion of CO2 into valuable products.
  • Study of metal complexes with redox-active ligands for catalytic applications.
  • Synthesis and characterization of metal-containing nanoparticles for sensing applications.
  • Investigation of metalloenzymes for biomimetic catalysis.
  • Design and study of metal-containing polymers for membrane applications.
  • Development of metal-based catalysts for the reduction of nitro compounds.
  • Study of metal complexes with chiral ligands for asymmetric catalysis.
  • Synthesis and characterization of metal-containing nanocomposites.
  • Investigation of metal complexes with ferrocene-based ligands for catalytic applications.
  • Design and study of metal-containing dendrimers for electrochemical applications.
  • Development of metal-organic frameworks (MOFs) for drug delivery and release.
  • Study of metal complexes with nitrogen-donor ligands for catalysis.
  • Synthesis and characterization of metal-containing nanoparticles for biomedical imaging.
  • Investigation of metal complexes with carbene ligands for catalytic applications.
  • Design and study of metal-containing coordination polymers for luminescent materials.
  • Development of metal-based catalysts for the oxidation of alcohols.
  • Study of metal complexes with azo-based ligands for catalytic applications.
  • Synthesis and characterization of metal-containing nanoparticles for drug delivery.
  • Investigation of metal complexes with sulfur-donor ligands for catalysis.
  • Design and study of metal-containing macrocycles for molecular recognition.
  • Development of metal-organic frameworks (MOFs) for sensing toxic gases.
  • Study of metal complexes with phosphine oxide ligands for catalytic applications.
  • Synthesis and characterization of metal-containing nanoparticles for catalysis.
  • Investigation of metal complexes with porphyrin ligands for catalysis.
  • Design and study of metal-containing dendrimers for photochemical applications.
  • Development of metal-based catalysts for the synthesis of heterocycles.
  • Study of metal complexes with crown ether ligands for catalytic applications.
  • Synthesis and characterization of metal-containing nanoparticles for water purification.
  • Investigation of metal complexes with bipyridine ligands for catalysis.
  • Design and study of metal-containing polymers for catalytic applications.
  • Development of metal-organic frameworks (MOFs) for gas separation.
  • Study of metal complexes with phosphine ligands for catalysis.
  • Synthesis and characterization of metal-containing nanoparticles for photothermal therapy.
  • Investigation of metal complexes with imidazole ligands for catalysis.
  • Design and study of metal-containing dendrimers for catalytic applications.
  • Development of metal-based catalysts for the oxidation of alkanes.
  • Study of metal complexes with crown ether ligands for ion recognition.
  • Synthesis and characterization of metal-containing nanoparticles for magnetic resonance imaging (MRI).
  • Investigation of metal complexes with thiol ligands for catalysis.
  • Design and study of metal-containing polymers for electronic devices.
  • Development of metal-organic frameworks (MOFs) for the removal of heavy metals from water.
  • Study of metal complexes with phosphine sulfide ligands for catalysis.
  • Synthesis and characterization of metal-containing nanoparticles for photodynamic therapy.
  • Investigation of metal complexes with calixarene ligands for catalysis.
  • Design and study of metal-containing dendrimers for gas sensing.
  • Development of metal-based catalysts for the dehydrogenation of amine boranes.
  • Study of metal complexes with cyclodextrin ligands for catalysis.
  • Synthesis and characterization of metal-containing nanoparticles for antimicrobial coatings.
  • Investigation of metal complexes with bidentate ligands for catalysis.
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Clockwise from top left: Raman, Chakrabartty, Singamaneni, Giordano, Steensma, Parker, Ling, Giammar

Water quality monitor, locust-inspired electronic nose under development

Teams led by Barani Raman, Dan Giammar awarded $650,000 National Science Foundation Convergence Accelerator grants

Two teams of engineers led by faculty in the McKelvey School of Engineering at Washington University in St. Louis will work toward developing products to monitor drinking water quality and to detect explosives with an electronic nose with one-year, $650,000 Convergence Accelerator Phase 1 grants from the National Science Foundation (NSF).

Barani Raman, professor of biomedical engineering, and Daniel Giammar, the Walter E. Browne Professor of Environmental Engineering, will lead teams of researchers from Washington University and other institutions and entities funded under the NSF’s Convergence Accelerator program, designed to address national-scale societal challenges through convergence research and to transition basic research and discovery into practice to solve these challenges aligned with specific research themes. Among the themes are real-world chemical sensing applications , bio-inspired design innovations and equitable water solutions .

Raman and his collaborators have been working for nearly two decades to harness insects’ keen sense of smell into a sensor that could be used to detect explosives and in other applications. Now, they will take it a step further by incorporating artificial intelligence (AI) and nanotechnology to create a sensor, or electronic nose, to detect explosive volatile organic compounds.

Raman, professor of biomedical engineering, will work with longtime McKelvey Engineering collaborators Shantanu Chakrabartty, the Clifford W. Murphy Professor in the Preston M. Green Department of Electrical & Systems Engineering; Srikanth Singamaneni, the Lilyan & E. Lisle Hughes Professor in the Department of Mechanical Engineering & Materials Science; and Braden Giordano, associate superintendent of the Chemistry Division at the U.S. Naval Research Laboratory.

Using the information gathered from their research in developing bio-inspired sensors, the team plans to create an AI-enabled, nanoparticle-based electronic nose device that can be used to gather and validate data. This portable proof-of-concept device would merge two ideas: a large, nanostructured chemical sensor array with diverse functions and the sensing and AI principles it has identified in the olfactory system of locusts. With the data, they plan to develop a library of known signatures for various explosive vapors at various concentration ranges.  

In addition to detecting volatile organic compounds, the electronic nose could also be used in biomedicine, homeland security, environmental monitoring, climate change technologies and the flavor and food industry. The team plans to work with industry partners to tailor the design for various uses. 

“A decade ago, we did not yet have the technology to develop a field-deployable and robust electronic nose,” Raman said. “The recent advances in biological olfaction, combined with developments in materials science and electronics for remote and long-term monitoring, helped us to understand the computing principles in biological olfaction. In addition, the vast improvements in AI, machine learning and data science provided a new opportunity to develop a robust artificial chemical sensing system.”

Raman acknowledges that a device equal in capabilities as a biological olfactory system such as the locust’s is a Holy Grail. However, this new work and design plan will consider the key requirements in various applications and develop priorities of capabilities needed in the electronic nose technology.

In the second McKelvey Engineering-led Convergence Accelerator project, Giammar, also the director of the university’s Center for the Environment, will lead a team in developing a drinking water-quality monitoring tool based on point-of-use water filters. The research will focus on residents of disadvantaged communities served by small public water systems and those in urban locations served by large water systems with an aging infrastructure as well as those who source water from private wells with lower monitoring requirements.

The team will evaluate the ability of commercially available point-of-use filters, such as faucet-mounted filters, to monitor copper, zinc, manganese, hexavalent chromium, arsenic, microorganisms, and per- and polyfluorinated alkyl substances, or PFAS, the widely used “forever chemicals” linked with harm to the environment and to human health.

“In urban settings, recent crises with lead found in drinking water in Flint, Michigan, and Newark, New Jersey, highlight the threats to public health posed by aging water supply infrastructure,” Giammar said. “The existing monitoring framework is often not enough to identify degraded water quality for those populations most affected, making this an environmental justice issue as much as a water quality issue.”

Giammar’s team includes co-principal investigators from WashU, including Fangqiong Ling and Kimberly Parker, both assistant professors of energy, environmental & chemical engineering in McKelvey Engineering, and Joe Steensma, professor of practice at the Brown School; as well as researchers from the University of Illinois at Urbana-Champaign, including Steven Wilson, groundwater hydrologist and principal scientist for the Illinois State Water Survey, Thanh Huong Nguyen, the Ivan Racheff Professor of Environmental Engineering in Civil & Environmental Engineering, and John Scott, senior analytical chemist in the Illinois Sustainable Technology Center.  

Giammar’s project also has external partners, including the Midwest Assistance Program, the Rural Community Assistance Partnership, the Water Quality Association, and the U.S. Environmental Protection Agency.

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  • Biomedical Engineering
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Faculty in this story

Kimberly Parker

Kimberly Parker

Assistant Professor

Shantanu Chakrabartty

Shantanu Chakrabartty

Vice Dean & Professor

Srikanth Singamaneni

Srikanth Singamaneni

Daniel Giammar

Daniel Giammar

Barani Raman

Barani Raman

Fangqiong Ling

Fangqiong Ling

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(Clockwise, from left) Chao Zhou, Aravind Nagalu, Lan Yang, all from McKelvey School of Engineering; Shu-Wei Huang, from the University of Colorado Boulder; Rithwick Rajagopal, MD, PhD, and Margaret Reynolds, MD, both from Washington University School of Medicine.

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Srikanth Singamaneni and Barani Raman led a team that harnessed the power of specially made nanostructures that can absorb light and create heat and act as containers to store and release chemicals on demand. They used these nanostructured materials to boost neural response in the locust's brain to specific odors and to improve their identification. (Singamaneni lab)

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  1. M.Sc. Organic Chemistry Student Project Presentation

    Nov 9, 2020 • 9 likes • 10,258 views D Dr. Krishna Swamy. G Faculty at Tumkur University Follow Science This presentation outline the project work carried out by the M.Sc. IV Sem organic Chemistry students, Tumkur University, Tumakuru Read more 1 of 26 Download Now Recommended

  2. Organic Chemistry Project Topics And Materials (PDF/DOC)

    List of Organic Chemistry Project Topics for Final Year Students: Synthesis of novel bioactive compounds Development of green and sustainable synthetic methodologies Design and synthesis of organocatalysts Investigation of new reaction mechanisms Exploration of asymmetric synthesis methods

  3. M.Sc Chemistry Project names and Ideas

    Some of the ideas relating to various M.Sc chemistry projects are discussed below. Final year Project Names and Ideas Bio methanol Conversion from Sugar Beet Pulp with Pectin Methyl Esterase This project deals with the study of renewable bio methanol from sugar beet pulp with PME.

  4. BSc/MSc Thesis Projects

    Welcome! If you are looking for a topic for your BSc and/or MSc thesis, you are at the right place: we have a wide variety of research topics in which you can actively participate and contribute to the development of 21th century science! Below you will find a description of ongoing research projects within the Laboratory of Organic Chemistry (ORC) in which you can participate for your BSc and ...

  5. Chemistry, Department of

    Synthesis and Study of High-Spin Stable Organic Radicals for Electrical Conductors and Mannosamine Nitroxide for MRI Contrast Agents, Shuyang Zhang. 2022 PDF. Designing Experiments: The Impact of Peer Review Structure on Organic Chemistry Students' Experimental Designs, Katie Patterson. 2021 PDF

  6. 113 Organic Chemistry Presentation Topics

    The page contains a list of useful Organic Chemistry Seminar Presentation Topics, Organic Chemistry Research Topic Ideas, and Advanced Topics for College Graduates. Organic Chemistry Research Topic Ideas Hydrocarbons: Addition Polymers (Plastics) Buckminsterfullerene and Carbon Nano-tubes Fractional Distillation Halocarbon Anesthetics

  7. MSc Organic Chemistry

    Call us immediately at 1800 57 2000 for a free 30-minute counselling session. Your contact details will not be published. Required fields are marked. MSc Organic Chemistry: PDF, Colleges, Syllabus, Notes, Jobs, Admission, Book, Salary in India, Subjects, Project Topics, Scope, Distance Education, Online.

  8. Organic Chemistry -Master of Science (MSc) in Chemistry 2-years

    Organic chemistry is the study of structures, properties, and reactions of organic compounds and organic materials. The range of applications of organic compounds is enormous and organic chemistry overlaps with many areas, including medicinal chemistry, biochemistry, organometallic chemistry, polymer chemistry and many aspects of materials science.

  9. PDF M.Sc. (Organic Chemistry) Part II

    CHO5306 Organic Chemistry Practical V PCORE-1 4 Paper - 5 CHO5307 Organic Chemistry Practical VI PCORE-1 4 M. Sc. Semester- Designing of Organic Synthesis and IV Paper - 1 CHO5401 Chemistry of Natural Products and Chiron Approach D. elective 4 CHO5402 Forensic Science and Toxicology G. Elective CHO5403 MOOC Course MOOC2 Paper - 2 CHO5404

  10. Organic Chemistry: Drug Discovery MSc

    Organic Chemistry: Drug Discovery MSc London, Bloomsbury This programme offers students the opportunity to follow an integrated course of research and interdisciplinary study.

  11. Projects offered for bachelor and master students

    Several specific projects are offered: a) in situ study of electrode surface dynamic under potential control; b) in situ anion adsorption on electrode surfaces; c) construction of metallic nanostructures; d) in situ monolayer formation and dynamic structures; e) study of electrode dynamics in non-aqueous liquid environment. 2.

  12. MSc Organic Chemistry Syllabus, Subjects, Semester Wise, Year Wise

    The syllabus of the Master of Science in Organic chemistry is spread over 2 years and further divided into 4 semesters covering different topics of Organic spectroscopy, synthetic organic chemistry, stereochemistry, computer applications etc. This course consists of the core as well as elective subjects, including training and internships.

  13. PDF M.Sc. Organic Chemistry

    Organic Chemistry Practical-V 4 2 100 15 15 70 OCOSCP 4.42 Organic Chemistry Practical-VI 4 2 100 15 15 70 Note: 1. Practical papers are only for organic chemistry students which are compulsory. 2. Examination duration for C3 component for theory papers is 3 hrs and practical papers is 6 hrs.

  14. 300+ Chemistry Research Topics

    Organic Chemistry Research Topics. Organic Chemistry Research Topics are as follows: Development of novel synthetic routes for the production of biologically active natural products. Investigation of reaction mechanisms and kinetics for organic transformations. Design and synthesis of new catalysts for asymmetric organic reactions.

  15. 50+ Remarkable Chemistry Project Topics for BSC Students ...

    Here are Chemistry Project Topics for BSC Students:- Organic Chemistry Projects Synthesis of Aspirin: Investigate the synthesis process, purity, and properties of this widely used pain reliever. Extraction of Natural Pigments: Explore the extraction of pigments from various plants and assess their applications in dyes and cosmetics.

  16. MSc Organic Chemistry Colleges, Subjects, Syllabus, IIT Admission

    MSc Organic Chemistry graduates can get jobs in industries and laboratories in private and public sectors as a Deputy Manager, Research Chemist, Chemistry Project Assistant, Quality Control Chemist, and Toxicologist. Average salary for MSc Organic Chemistry degree holders ranges between INR 3,00,000 to 8,00,000, which increases with the number ...

  17. 84 Organic Chemistry Project For Msc Student PPTs View free & download

    Advanced View Organic Chemistry Project For Msc Student PPTs online, safely and virus-free! Many are downloadable. Learn new and interesting things. Get ideas for your own presentations. Share yours for free!

  18. MSc Organic Chemistry Syllabus & Subjects 2024

    The MSc Organic Chemistry syllabus and subjects are thoroughly divided into four semesters and include topics such as Synthetic Organic Chemistry, Stereo-Chemistry, Organic Spectroscopy and Synthesis, Reagents in Organic Synthesis, and so on. To be eligible for this course, candidates must have graduated from a recognised university with a ...

  19. M.Sc Organic Chemistry Syllabus and Subjects

    The M.Sc Organic Chemistry syllabus can be divided into four semesters under two years with topics such as Organic Spectroscopy and Synthesis, Synthetic Organic Chemistry, Reaction Mechanism, Stereo-Chemistry, etc.

  20. Chemistry Project Topics and Materials PDF Free Download 2024

    In our research archive, we have lots of free chemistry project topics, and premium research papers in analytical chemistry, environmental chemistry, inorganic chemistry, petroleum chemistry, physical chemistry, pure chemistry e.t.c. And related research seminar titles and journals for final year students in the chemistry department.

  21. Chemistry Final Year Research Project Topics

    Quick Project Topic Search. Download Chemistry Final Year Research Project Topics - Free Project Topics | Codemint and Research Materials. Get Complete Chapter 1-5 Project Materials and Research Topics for HND, BSc, MSc in Doc & PDF. Final Year Projects and Research Materials on CodeMint.

  22. Chemistry Project Topics and Materials

    CHEMISTRY PROJECT TOPICS AND MATERIALS 1. STATISTICAL STUDY OF THE EFFECTS ON THE PERCENTAGE OF ACTIVE COMPONENTS IN MULTI ACTIVE DETERGENTS 2. CONTROL OF A FLUID CATALYTIC CRACKING UNIT 3. APPLICATION OF ENVIRONMENTAL MANAGEMENT SYSTEMS IN A SOAP PRODUCTION PLANT 4.

  23. Inorganic Chemistry Project Topics And Materials (PDF/DOC)

    Here is the list of good/free project topics in Inorganic Chemistry: Synthesis and characterization of novel metal-organic frameworks (MOFs) for gas storage applications. Investigating the catalytic activity of transition metal complexes in organic transformations.

  24. Water quality monitor, locust-inspired electronic nose under

    Two teams of engineers led by faculty in the McKelvey School of Engineering at Washington University in St. Louis will work toward developing products to monitor drinking water quality and to detect explosives with an electronic nose with one-year, $650,000 Convergence Accelerator Phase 1 grants from the National Science Foundation (NSF).