3^rd International Conference on
Chemistry and Chemical Engineering

Biochemistry traverses through the vital metabolic and chemical processes that are being carried out within or relating to the different kinds of living organisms at cellular as well as molecular level. The subject biochemistry is the fusion of the two different disciplines namely biology and chemistry. This mainly focuses on the processes and reactions relating to the biological macromolecules such as proteins, nucleic acid, carbohydrates, fats, minerals, and vitamins. It is also used to describe the processes for a better understanding of the interactions and functions of the biomolecules.

• Track 2-1Biomolecules
• Track 2-2 Metabolism
• Track 2-3 Enzymology
• Track 2-4 Cell biology
• Track 2-5 Molecular biology

Chemical engineering is the stream of engineering that combinedly deals with the various disciplines like chemistry, physics, biology, mathematics, and economics to innovate, process, transmute, modify the unprocessed materials into useful products. Chemical engineering plays a vital role in the pharmaceutical industries. Petrochemistry is the branch of chemistry that focuses only on the conversion of natural gas and crude oil into fruitful commodities which is then utilized for commercial purposes. The petrochemistry is one of the newly emerging industries.  

• Track 3-1 Process engineering
• Track 3-2 Product engineering
• Track 3-3 Metallurgy
• Track 3-4 Thermodynamics
• Track 3-5 Fluid dynamics

Colloidal chemistry is an integral part of physical chemistry. The colloid is the mixture of the dispersed phase of several soluble and insoluble materials. It is broadly classified into two types namely hydrophilic colloids i.e. colloid particles attracts towards the water and hydrophobic colloids i.e. colloid particles get repelled by water. Surface chemistry is the study of both physical and chemical reactions that occur at the interface of any two states of matter. It also focuses on modifying the chemical composition of the surface.

• Track 4-1 Types of colloids
• Track 4-2 Methods of preparation
• Track 4-3 Stabilisation of colloids
• Track 4-4 Adsorption isotherm
• Track 4-5 Catalysis

Computational chemistry is one of the sub-disciplines of chemistry that makes use of computer simulation that aids in solving the existing complicated chemical problems. This is also used to inquire about the fundamental physical and chemical properties of the atomic and molecular constituents using the principles of quantum mechanics and thermodynamics. It can also be utilized to determine the vibrational spectra of the simple molecules. It has become one of the integral tools in most of the sub-disciplines of chemistry.

• Track 5-1 Quantum mechanics
• Track 5-2 Phototherapy
• Track 5-3 Adsorption science
• Track 5-4 Molecular dynamics
• Track 5-5 Chemical dynamics

The electrochemistry is the branch of physical chemistry that deals with the correlation of the electrical and chemical reactions produced due to the passage of electric current. It mainly accounts for the generation of electricity by the redox reaction. An electrochemical reaction is a phenomenon in which the electricity is produced when an electron flows between the two electrodes (i.e. cathode and anode) through the electrolyte solution. This electrochemistry plays a vital role in the industries producing electrical batteries.

• Track 6-1 Electrolysis
• Track 6-2 Corrosion
• Track 6-3 Redox reaction
• Track 6-4 Electroplating
• Track 6-5 Fuel cells

Food chemistry deals with the study and the analysis of chemical reactions and processes of the biological and non-biological components present in the food materials. The food chemistry also provides the information about the chemical and biological composition of the food and to study the fundamental properties of the constituents. Agricultural chemistry is the science that mainly considers the organic and biochemistry which closely relates to agricultural production. It is concerned about the soil ecosystem where the living and non-living constituents interacts with one another in more complicated cycles.

• Track 7-1 Food processing
• Track 7-2 Food packaging
• Track 7-3 Preservation methods
• Track 7-4 Chemurgy
• Track 7-5 Yield of crops
• Track 7-6 Quality of Agri-products
• Track 7-7 Fertilisers

Green and sustainable chemistry is the newly emerging concept which primarily characterized for minimizing environmental damage and hazards to living beings that are resulted by the synthesis, processing, and utility of various chemical constituents. This concept is mainly introduced in order to improve synthetic chemistry thereby providing an environmental-friendly ecosystem. The green chemistry stands as the primary key for sustainable development. It is a scientific idea that aims to improve the efficacy thereby replacing the use of chemical products by natural resources.

• Track 8-1 Energy conservation
• Track 8-2 Human health
• Track 8-3 Ozone depletion
• Track 8-4 Chemical disturbance of ecosystem
• Track 8-5 Environmental degradation

Industrial chemistry is the art that is concerned with the transmutation of the raw form of material into products that are useful to mankind. This process of transmutation of the raw materials involves a variety of procedures such as grinding, blending, dissolving, heating, cooling, evaporating, distilling, crystalizing, molding, casting, blowing, filtering, and many other physical, chemical, biological processes.

• Track 9-1 Processing
• Track 9-2 Raw materials
• Track 9-3 Agrochemicals
• Track 9-4 Oleochemicals
• Track 9-5 Petrochemicals

Inorganic chemistry is the study of the configuration, properties, reactivity, and processes of all the inorganic chemical constituents except that of hydrocarbons and their derivatives. It is represented as the traditional core of the chemistry. This inorganic chemistry has its applications in every aspect of the chemical industries. It majorly deals with the 70 metallic compounds in combination with the non-metals. Inorganic chemistry has emerged as a major factor in the evolution of technology and sciences.

• Track 10-1 Types of chemical compounds
• Track 10-2 Acid-base chemistry
• Track 10-3 Coordination chemistry
• Track 10-4 Molecular orbital theory
• Track 10-5 Crystal field theory

Material chemistry is one of the streams of chemistry that focuses on synthesis, characterization, and understanding of the substances. It mainly constitutes 4 major components such as synthesis, configuration, characterization, and usage. It combines elements from all the four major areas of chemistry but has a scholarly focus on the elemental scientific issues that are distinctive to the materials. This material chemistry serves as a conjunct between chemistry, engineering, and life sciences. It provides a strong connection between basic science and the newly evolving technologies.

• Track 11-1 Crystallography
• Track 11-2 Composites
• Track 11-3 Ceramic engineering
• Track 11-4 Nuclear spectroscopy
• Track 11-5 Nanotechnology
• Track 11-6 Femtotechnology

Medicinal chemistry is the interconnection of synthetic organic chemistry and pharmacology which involves the chemical synthesis of drugs and evolution in the market of pharmacy. This involves the process of applying the chemistry techniques for improvising and synthesizing new medicines. This is one of the most fostering fields as it connects many scientific subdivisions that allow for the collaboration of one scientist with the other in research and development of novel drugs and medicines. This field has a rapid progression over the last few decades.

• Track 12-1 Synthetic chemistry
• Track 12-2 Drug design
• Track 12-3 Drug distribution
• Track 12-4 Pharmacogenomics
• Track 12-5 Salvage Therapy
• Track 12-6 CAR T-cell Therapy
• Track 12-7 Prophylactic Therapy
• Track 12-8 Pathobiochemistry

Organic chemistry is the sub-discipline of chemistry that deals with the study of the structure, properties, configuration, processes and synthesis of the carbon compounds which not only comprises of hydrocarbon but also the compounds with any other elements such as oxygen, nitrogen, silicon, sulphur. It is highly utilized to create new molecules and enhance the properties of the existing compounds. This mainly accounts for the substances found in the living organisms. Organic chemistry plays an important role in our day-to-day life.

• Track 13-1 Stereochemistry
• Track 13-2 Nomenclature
• Track 13-3 Classification of organic compounds
• Track 13-4 Functional groups
• Track 13-5 Carbocation and carbanion

Pharmaceutical chemistry deals with the study of drugs and their development. This aids to cure and provide remedies for all dreadful diseases. It is much closely related to medicinal chemistry.  This involves the discovery, delivery, absorption, metabolism and more about drugs. This field contributes more to life-saving remedies. Pharmaceutical chemistry has three sub-disciplines such as pharmacokinetics, pharmacodynamics, and drug metabolism which helps to know more about the effects of drugs on the human body.

• Track 14-1 Pharmacokinetics
• Track 14-2 Pharmacodynamics
• Track 14-3 Drug metabolism
• Track 14-4 Pharmacology
• Track 14-5 Drug development

Polymer chemistry is one of the main branches of chemistry that deals with the study of the production and characterization of the polymer molecules. The polymer is the macromolecule which is obtained by the repeated addition of one or more simple monomer molecules. This serves as the most emphasized field of chemistry because of its ease in synthesis and the utility of the polymers in day-to-day life. The concepts and techniques used in polymer chemistry are also pertinent to the other sub-disciplines of chemistry.

• Track 15-1 Synthetic polymers
• Track 15-2 Biopolymers
• Track 15-3 Types of polymerization
• Track 15-4 Catalysts in polymer chemistry
• Track 15-5 Applications of polymers

Forensic chemistry is a subfield of forensic science to detect the information about the physical as well as the biological evidence in criminal cases. Here the substances or evidence like blood, DNA, fingerprints, footprints are analysed in order to determine the time when the crime was happened and also helps to find by whom the crime was committed. This plays a vital role in solving crimes in society by identifying the appropriate criminal thereby protecting the innocent from the unjust punishments.

• Track 16-1 Chromatography
• Track 16-2 Toxicology
• Track 16-3 Methodology
• Track 16-4 Forensic anthropology

Nuclear chemistry is the sub-discipline of chemistry which mainly focuses on radioactivity, nuclear processes, and nuclear transmutation. It involves the study of the synthesis of new radioactive materials and their uses in various applications. Nuclear chemistry is concerned mainly with the study of the nucleus, its properties, and changes. Nuclear chemistry plays an important role in medicine especially as a diagnostic tool in cancer treatment. Nuclear chemistry is useful as well as more hazardous to the living being.  

• Track 17-1 Radiation chemistry
• Track 17-2 Types of nuclear reactions
• Track 17-3 Nuclear spectroscopy
• Track 17-4 Nuclear medicine
• Track 17-5 Nuclear transmutation

Physical chemistry is the subfield of chemistry which is more related to the application of the concepts and methodology of physics in chemical systems. It is used to study the behaviour of the matter at atomic as well as the molecular level which further helps in the development of new theories and the formation of more complex structures. The physical chemistry comprises four sub-disciplines namely organic chemistry, inorganic chemistry, analytical chemistry, and biochemistry. The physical chemistry is much important in the research and development of new materials.

• Track 18-1 Chemical kinetics

• Track 18-2 Solid-state chemistry
• Track 18-3 Photochemistry
• Track 18-4 Biophysical chemistry
• Track 18-5 Chemical thermodynamics