The Organic Chemistry research involves the synthesis of organic molecules and the study of their reaction paths, interactions, and applications. Organic Chemistry mainly focuses on prediction of aromatic behaviour and anti-aromatic behaviour, carbohydrates & carboxylic acids, nitriles & phenols, phosphine's & polymers, general condition for non-aromatic behaviour of organic compounds, prediction of hybridization state of heterocyclic compounds, esters & ethers and reactions, reactivity of alpha hydrogen's.
Organic reactions and Synthesis
Classification of organic compounds
Stereochemistry of organic compounds
Modern organic chemistry and applications
Biochemistry, sometimes known as biological chemistry, is the study of chemical processes within and relating to living organisms. Biological chemistry is the application of chemistry to the study of biological processes at the cellular and molecular level. Medical Biochemistry is branch of medicine concerned with the biochemistry and metabolism of human health and disease. The medical biochemist is trained in the operation and management of clinical biochemistry laboratories, and acts as a consultant in all aspects of their use.
Metabolisms and metabolic pathways
Structural chemistry is concerned with the structural properties of chemical reactions of macromolecules and ions, and with the bonding between constituent atoms. Structural Chemistry can also be known as Experimental and Computational studies of Chemical and Biological Systems. It includes different techniques for the determination of structure and energetics, their results, and the conclusions derived from these studies.
Absorption spectroscopy and Vibrational spectroscopy
Infrared and Raman Spectroscopy
Cyclic Voltammetry and X-ray photoelectron spectroscopy
Electrochemistry explains about the chemical processes that cause electrons to move. This movement of electrons is known as electricity, which might be generated by movements of electrons from one part associate degree other in a very reaction called a redox reaction which might be measured by normal conductor potential. Electrochemistry has many different uses, particularly in industry. The principles of cells are used to make electric batteries, that stores chemical energy and make it available in an electrical form.
Solvent and supporting electrolytes
Corrosion and its types
Applications of Electrochemistry
Nanochemistry is the combination of Nanoscience and Chemistry. Nanochemistry is associated with the synthesis and characterisation of materials of nanoscale size. Nanochemistry has its significant role in chemical, physical and materials science, engineering and medical and biological applications. Nanochemical methods can be utilized to create carbon nanomaterials, for example, carbon nanotubes (CNT), graphene and fullerenes which have gained attention in recent years due to their remarkable mechanical and electrical properties.
Nanotechnology in Chemistry
Nanomaterials and nanoparticles
Applications of Nanochemistry
Agricultural chemistry deals with the study of both chemistry and biochemistry which plays a major role in agricultural production, processing of raw products into foods and beverages and in environmental monitoring and remediation. Food chemistry is study of chemical processes, composition and interactions of all biological and non-biological components of foods. It includes micro and macronutrients and the essential nutritional factors that determine the nutritional and energy value of food raw materials and foods. It also includes reactions related to amino acids, peptides and proteins, carbohydrates, vitamins, fats and other lipids, mineral substances and water which are responsible for taste, odour and colour that determine the quality of food.
Nutrition and food science
Greenhouse organic farming
Chemical reactions in food
Risk/benefits evaluation of food components
Methodologies and Applications in Food Analysis
Advances in Agricultural and Food Chemistry
Physical Chemistry is the branch of chemistry and application of physical principles and measurements to understand the properties of matter and also for the development of new technologies for the environment, medicine and energy. Chemistry Conferences focuses on advanced physical chemistry applications include different spectroscopy methods (Raman, ultrafast and mass spectroscopy, nuclear magnetic and electron paramagnetic resonance, x-ray absorption, statistical mechanics and atomic force microscopy) as well as theoretical and computational tools offers atomic-level understanding for applications such as: Nanodevices for bio-detection and receptors, interfacial chemistry of catalysis and implants, protein function, electron and proton transfer, photosynthesis and mobile particles in the atmosphere.
Physical organic chemistry
Medicinal chemistry focuses on drug discovery and development and is concerned with the isolation of medicinal agents found in plants, also creation of novel drugs. Medicinal chemistry focuses on small organic molecules, encompasses with different scientific branches likes synthetic organic chemistry, computational chemistry, chemical biology, enzymology and structural biology, together aiming at the discovery and development of new synthetic drug compounds.
Cancer Research in Medicinal Chemistry
Medicinal Chemistry Technologies for Drug Discovery
Enabling Technologies of Medicinal Chemistry
Advances in Medicinal Chemistry
Applications of Medicinal Chemistry
Environmental Chemistry is study of behaviour of pollutants with respect to their environmental fate and its impact on the environment. Environmental pollution like air pollution, water pollution is the effect of undesirable changes in the surrounding, which will have harmful effects on animals, plants and human beings. Environmental Pollutants exist in all the three states of matter. Atmospheric pollution is generally known as tropospheric and stratospheric pollution. Green chemistry also called sustainable chemistry; is an area of chemistry and chemical engineering focused on the design of products and processes that minimize the use and generation of hazardous substances.
Environ mental Pollutions and Remediation
Applications of Environmental Chemistry
Waste management and recycling
Ecotoxicology and biomarkers
Biomass & its sources
Green Chemical Reactions, Catalysis & materials
Trends in green chemistry
Green chemistry applications
Industrial Chemistry is the branch of chemistry which applies physical and chemical processes to transform the raw materials into different useful products. Industrial chemists make use of their broad understanding of chemistry and environmental sustainability in areas like pharmaceutical companies, polymer manufacturing, petrochemical processing, food science, and manufacturing industries.
Food production and processing
Fuels (including non-fossil, renewable fuels)
Polymers and plastics
Industrial Polymers, Metals and Composites Chemistry
White Biotechnology and Green Chemistry
Membrane Technology- Nano Filtration and Reverse Osmosis
Industrial Photo Chemistry
Water Treatment and Industrial Chemistry
Nano Technology involved in Industrial Chemistry
Chemistry education also known as Chemical education. Chemistry Education is the study of chemistry which is helpful for student success, integrated lab – lecture experiences, active learning, case-based learning, instrumentation knowledge, evaluations of effective innovative practice in the teaching and in-depth analyses of chemistry.
Chemistry History, Culture & Outreach
Chemistry Education Research and Practice
Technology enhanced chemistry teaching and learning
Chemistry Education through microscale experiments
Active learning pedagogies for the future of Chemistry Education
E-learning and blended learning in chemistry education
New tools and challenges for chemical education
Smartphone applications for chemistry
Future of chemical education
Chemical Engineering combines the principles of Chemistry and Engineering for the production of chemicals and related by-products. Chemical Engineering is a varied field, covering areas from mineral processing, pharmaceuticals, biotechnology and nanotechnology, synthetic fibres, petroleum refining plants etc.
Chemical reaction engineering
Materials science and technology
Chemical process modeling and design
Safety and hazard developments
Process design and analysis
Membrane separation processes
Materials chemistry is branch of chemistry which provides a unique intellectual foundation to design, create and understand new forms of matter, let it be organic, inorganic or hybrid materials. The matters can be nano, micro and macro in size. By understanding the chemical properties of the matter and then changing the microstructure, material chemists tailor the properties to create custom or new, materials with specific properties for specific uses.
Materials science and chemistry
Electronic and Magnetic Materials
Optical materials and Soft materials
Chemical Biology deals with chemistry applied to biology; research uses the tools of chemistry and synthesis to understand biology and disease pathways at the molecular level. Chemical Biology combines the fields of molecular biology, molecular imaging and synthetic chemistry to create novel chemical tools for probing biological systems.Submit your Abstract
Inorganic chemistry is the branch of chemistry which deals with the synthesis, properties, reactions and the uses of compounds devoid of carbon. It has applications in every aspect of the chemical industry, including catalysis, materials science, surfactants, pigments, coatings, fuels, agriculture and medications. Inorganic chemistry mainly focuses on coordination chemistry & case studies, crystal field theory, crystallography, crystal lattices, descriptive chemistry, ligand field theory, electronic configurations, molecular geometry and organometallic chemistry. X-ray crystallography, Dual polarisation interferometer, Ultraviolet-visible spectroscopy, NMR spectroscopy, Infrared spectroscopy, Electron nuclear double resonance (ENDOR) spectroscopy, Mossbauer spectroscopy, Electron-spin resonance, Electrochemistry are some of the techniques commonly encountered by Inorganic Chemistry.
Synthetic inorganic chemistry
Mechanistic inorganic chemistry
Thermodynamics and inorganic chemistry
Application of Inorganic chemistry
Pharmaceutical Chemistry is the branch of chemistry, which combines the principles of Chemistry and Pharmacology to produce the useful novel drugs. Drug discovery is the process through which identification of novel active chemical compounds or new medicines are done. It involves a wide range of scientific disciplines, including chemistry, biology and pharmacology.
Pharmacology & Pharmacovigilance
Computer Aided Drug Design-CADD
Drug Designing and development
Integrating Pharmaceutical Chemistry into Drug Discovery
Applications of ADME in Drug Discovery
Pharmacology and Toxicology
Frontiers in Drug Development
Chemoinformatic Drug Discovery
Novel Drug Target Approaches
Novel Drug Delivery System in pharmaceutics
Proteomics & Bioinformatics Drug Discovery
Polymer chemistry is the study of the chemical structure, synthesis, characterization, physical and chemical properties of macromolecules and polymer molecules.
Polymer types, design and reactions
Biomaterials and polymers
Polymers in Biotechnology, Medicine and Health
Polymers and Nanotechnology
Smart and Functional Polymers
Renewable Resources and Biopolymers
Polymer Engineering and Modelling
Polymer Characterization and Polymer Physics
Recent Developments in Polymer Design
Theoretical chemistry is the study of structural and dynamic properties of molecules and molecular materials using the tools of quantum mechanics, classical mechanics, and statistical mechanics and dynamics.
Theoretical chemical kinetics
Analytical techniques spans nearly all areas of chemistry but involves the development of tools and methods to measure physical properties of substances and apply those techniques to the identification of their presence (qualitative analysis) and quantify the amount present (quantitative analysis) of species in a wide variety of settings, analytical chromatography will be used in various fields for separation and analytical biochemistry is used to detect various samples.
Qualitative and Quantitative analysis
Chemometrics in Analytical Chemistry
Spectroscopic Analytical Methods
Advances in Separation Methods
Chromatographic and Electrophoretic Methods
Image based bioanalysis
Enzymes in bioanalytical chemistry
Chemical substance which is produced by the living organisms present in the nature is known as a Natural product. Natural products can also be prepared by both semi chemical synthesis and total chemical synthesis, and have played a major role in the development of the organic chemistry field by providing challenging synthetic targets. Sometimes, Natural products have therapeutic advantage as traditional medicines for treating diseases and often act as lead compounds for drug discovery, from which synthetic analogs can be prepared with improved efficacy, potency, safety and purity.
Natural products Categories
Medical uses of Natural products
Natural products Sources, Isolation and purification
Natural Products - Drug Discovery
Natural Products Biosynthesis
Chemical synthesis of Natural products
Forensic chemistry also called as legal chemistry, is the application of chemistry to enforcement or the failure of merchandise or processes. Forensic chemistry includes organic and inorganic analysis, toxicology, arson investigation and serology. Each method uses different Analytical Techniques and Instrumentation. These include gas chromatography-mass spectrometry, atomic absorption spectroscopy, Fourier transform infrared spectroscopy, high-performance liquid chromatography and thin layer chromatography.
Forensic data analysis
Bloodstain pattern analysis
Clinical chemistry is also known as clinical pathology or chemical pathology. Clinical chemistry is the field of chemistry that is generally concerned with analysis of bodily fluids for therapeutic and diagnostic purposes. Clinical chemistry combines analytical techniques and instrumentation with information technology and management of workflow, high volume automation and staff efficiency.
Therapeutic Drug Monitoring
Toxicology Endocrinology and Metabolism
Enzymes and Protein Markers
Automation and Analytical Techniques
Nuclear chemistry, sometimes also known as Radiochemistry, is the branch of Chemistry dealing with radioactivity, nuclear processes such as nuclear transmutation and nuclear properties. Nuclear chemistry has many applications in medicine, agriculture, industry and research. It ranges from the study of the formation of the elements in the universe to the design of radioactive drugs for diagnostic medicine. Nuclear chemistry greatly assists the understanding of medical treatments such as cancer radiotherapy and radiation oncology and has enabled these treatments to improve. Nuclear Chemistry also has many applications in non-radioactive areas of human activity such as; nuclear magnetic resonance (NMR) spectroscopy is commonly used in synthetic organic chemistry and physical chemistry and for structural analysis in macromolecular chemistry. Nuclear Chemistry applications greatly improve the day to day quality of human lives.
Nuclear fuel cycle and Nuclear reprocessing
Nuclear chemical engineering
Geochemistry is that the science that uses the tools and principles of chemistry to clarify the mechanisms behind major earth science systems like the layer and its oceans. The realm of chemistry extends on the far side the planet, encompassing the whole scheme and has created vital contributions to the understanding of variety of processes as well as mantle convection, the formation of planets and therefore the origins of granite and volcanic rock.
Marine chemistry is also known as Ocean Chemistry, is influenced by turbidity currents, sediments, atmospheric constituents, pH levels, metamorphic activity and ecology. The Chemical oceanography is the study of the chemical composition and chemical processes of marine environments including the influences of different variables. Some of the key processes studied are the cycling of: Inorganic and organic carbon; nutrients, such as nitrogen and phosphorus; and trace elements, such as iron.
Marine Chemical Ecology
Organic compounds in the oceans
Applications of marine Chemistry
Petrochemistry is the branch of chemistry concerned with the study of converting petroleum and natural gas into useful products. These useful products namely plastics, rubbers, surfactants, dye, paints, insulating materials, healthcare products, pharmaceuticals etc. plays a vital role in Chemical industries. The Petroleum product life cycle includes three segments namely upstream, midstream and downstream. Upstream includes Exploration and Production of oil, midstream includes Refining and Processing whereas downstream includes Distribution and Marketing.
Petrochemistry & Natural Resources
Petroleum Exploration and Fossil Fuels
Petrochemistry in Industries
Fuel Chemistry, Technology & Processing
Petroleum analysis and evaluation
Thermal chemistry of petroleum constituents
Heavy oil upgrading processes
Gas Supply & Gas Technology
Applications of Petrochemistry
In Chemistry, Spectroscopy is an often used analytical technique to identify chemical compounds through the spectrum emitted from or absorbed by them. Mass spectrometry is an analytic method that employs ionization and mass analysis of compounds in order to determine the mass, formula and structure of the compound being analysed.
Applications of Mass spectrometry