Call for Abstract
Scientific Program
8th International Conference on Organic and Inorganic Chemistry, will be organized around the theme “Recent Trends in Organic and Inorganic Chemistry”
INORGANIC CHEMISTRY 2022 is comprised of 20 tracks and 118 sessions designed to offer comprehensive sessions that address current issues in INORGANIC CHEMISTRY 2022.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
Inorganic chemistry is the study of inorganic substances which are classified as catalysts, pigments, coating, surfactants, drugs, oils and more. It is concerned with inorganic compounds properties and their action. It involves rocks, minerals, coatings and organometallic compounds. If organic chemistry is known as the chemistry of hydrocarbons compounds and inorganic compounds may be broadly classified as study of non-carbon compounds or as the chemistry of everything else.
- Track 1-1Bioinorganic chemistry
- Track 1-2Bio organometallic chemistry
- Track 1-3Ceramic chemistry
- Track 1-4Cluster chemistry
- Track 1-5Coordination chemistry
- Track 1-6Materials science
- Track 1-7Organometallic chemistry
It is a challenging field as it tie-up many scientific disciplines and allows for collaborations with other scientists in researching and developing the new drugs. Medicinal chemists apply their chemistry training and knowledge in synthesizing the new pharmaceuticals and their development processes. Medicinal chemists are concentrated on drug discovery as they are concerned with the isolation of medicinal agents from plants and development of synthetic drug compounds.
- Track 2-1Analgesics and Anti-Inflammatory Agents
- Track 2-2Anticancer Drugs
- Track 2-3Antihistamines and Local Anesthetics
- Track 2-4Basic Aspects of Drug Activity
- Track 2-5Cardiovascular Drugs
Computational Chemistry is the branch in which computational chemists studies the fundamental of atoms, molecules and chemical reactions using quantum mechanics and thermodynamics principles. It helps in understanding the world in better way as researchers uses their work to extract knowledge, manufacturers uses their design to develop more productive and efficient methods, etc.
- Track 3-1Semi-empirical methods.
- Track 3-2Molecular mechanics
- Track 3-3 Methods for solids.
- Track 3-4Molecular dynamics.
- Track 3-5 Chemical dynamics.
Chemical engineers develop the processes which are suitable for labs to commercial level for the production of products and then works on those to maintain and improve them. They use the foundations of engineering (maths, physics), chemistry and biology also. The aerospace, automotive, biomedical, electronic, environmental, medical and military industry uses the skills of chemical engineers to help them in developing and improving their technical products.
- Track 4-1Applications of Chemical engineering
- Track 4-2Plant Utilities
- Track 4-3Inorganic and Physical Chemistry
Physical chemistry is the sub-division of chemistry which involves the application of physics principles to determine the hypotheses to study the chemical properties and reactions between the materials. Physical chemist uses heavy machinery (laser, nuclear magnetic resonance and electron microscope etc.) for the reaction between the materials and analyse them by using physics laws and mathematical computations on the large data sets produced with those reactivity.
- Track 5-1Biophysical chemistry
- Track 5-2Chemical kinetics
- Track 5-3Electrochemistry
- Track 5-4Materials science
- Track 5-5Micromeritics
- Track 5-6Photochemistry
- Track 5-7Physical organic chemistry
- Track 5-8Quantum chemistry
Radiochemistry is the study of chemistry of radioactive materials where radioactive agents are used to research the properties and chemical processes of non-radioactive isotopes; sometimes the absence of radioactivity also results in a sample being defined as inactive as isotopes are stable. Much of radiochemistry deals with the use of radioactivity to describe ordinary chemical reaction. It is very different from radiation chemistry where radiation is kept too low to influence the chemical.
- Track 6-1Detection and measurement of radioactivity
- Track 6-2Environmental radioactivity
- Track 6-3Interaction of radiation with matter
- Track 6-4Isotopes
- Track 6-5Nuclear reactions
- Track 6-6Radioactive decay
- Track 6-7Radiochemotherapy
- Track 6-8Radiochromatography
- Track 6-9Radiochronology
Polymer chemistry is a sub-division of chemistry that focuses on the chemical synthesis, structure and chemical and physical properties of polymers and macromolecules. In living organisms the enzymes, cellulose and nucleic acid are the example of polymers. They also form base of minerals such as stone, granite, etc. and products like concrete, steel, paper, plastics and rubber.
- Track 7-1Advanced Polymer Characterization
- Track 7-2Biopolymers
- Track 7-3Polymer Engineering and Technology
- Track 7-4Supramolecular Polymers
- Track 7-5Polymer Blends
- Track 7-6Biodegradable Polymers
Working on the nanomaterials provides a scientific approach to the nanotechnology. Nanomaterials can be defined as the number of particle size must measure below 100 nanometres. Nano materials can occur naturally or can be created as the by-products of combustion reaction. These nanomaterials are too small for the naked eyes to see. The use of nanomaterial is spans across various industries such as healthcare, cosmetics etc.
- Track 8-1Advanced Nano Materials
- Track 8-2Advanced Energy Materials
- Track 8-3Advanced Graphene Materials
- Track 8-4Advanced Magnetic Materials
- Track 8-5Advanced Polymer Materials
- Track 8-6Organic Light Emitting Diodes
- Track 8-7Hydrogen Energy
- Track 8-8Solar Energy Materials
Heterocyclic chemistry is a division of organic chemistry that deals with the synthesis, properties and application of Heterocyclic compounds. Heterocyclic compounds are unsaturated derivatives and unstrained 5 and 6 membered ringed substances i.e. they are inorganic that contain at least one carbon. Macro cyclic ligand exhibits strong affinity for metal ions. Crown ethers and porphyrins are popular examples.
- Track 9-1Heterocyclic Supramolecules
- Track 9-2Heterocyclic Polymethine Dyes
- Track 9-3Bioactive Heterocycles
- Track 9-4Synthesis of Heterocycles via Cycloadditions
- Track 9-5Heterocycles from Carbohydrate Precursors
- Track 9-6Marine Natural Products
It is the brief analysis of the compounds which are produced or modulated by human nervous system. It is the purest branch of organic chemistry which involves study of neurochemicals such as oxytocin, serotonin, dopamine and other compounds which controls neurotransmitters. A clear awareness of neurochemistry is required to recognise certain neurological and cognitive conditions
- Track 10-1Molecular neuroscience
- Track 10-2Neuroendocrinology
- Track 10-3Neurogenesis
- Track 10-4Neuroimmunology
- Track 10-5Neuromodulation
- Track 10-6Neuropharmacology
Organic chemistry is the scientific discipline, to study the properties, structure and applications of organic molecules and compounds. Organic compounds are carbon based compounds i.e. compound composed of carbon and hydrogen atoms only. It also involves study of structures involving regulating chemical constitution, composition of organic material and compounds through various chemical and physical methods. The study of properties involves progression of chemical reactivity to understand the behaviour of organic matter in its purest forms, if possible in mixtures also (fabricated forms) and solutions as wellOrganic chemistry is the scientific discipline, to study the properties, structure and applications of organic molecules and compounds. Organic compounds are carbon based compounds i.e. compound composed of carbon and hydrogen atoms only. It also involves study of structures involving regulating chemical constitution, composition of organic material and compounds through various chemical and physical methods. The study of properties involves progression of chemical reactivity to understand the behaviour of organic matter in its purest forms, if possible in mixtures also (fabricated forms) and solutions as well.
- Track 11-1Agricultural machinery
- Track 11-2Fertilisers and chemicals
- Track 11-3Encompasses organic and inorganic analysis
- Track 11-4Fingerprint analysis
- Track 11-5Aromaticity in Heterocyclic Compounds
Forensic chemistry is applied science field where an individual apply his/her expertise to solve the crimes in the field of chemistry. There are various disciplines that an individual can adopt to solve the crime scenes. Some of the applications of forensic chemistry include spectroscopy, detection and separation methods to identify the illegal drugs and medicines
- Track 12-1Ballistic fingerprinting
- Track 12-2Bloodstain pattern analysis
- Track 12-3Forensic data analysis
- Track 12-4Forensic toxicology
Food chemistry is the chemical variable that deals with the chemistry behind the bio-chemical origin of the food, its properties and how it is handled inside the human body. It is also referred as the study of chemical processes and all biological and non-biological components of food interactions with the body.
- Track 13-1Food engineering
- Track 13-2Food fortification
- Track 13-3Food microbiology
- Track 13-4Food packaging
- Track 13-5Food packaging
- Track 13-6Food preservation
- Track 13-7Food rheology
- Track 13-8Food safety
- Track 13-9Food science
Electrochemistry deals with chemical reactions that produce the electric current and the changes associated with the passage through matter of electrical current. It is done through the oxidation or redox reaction i.e. movement of electrons. Most of the metals are purified by using the electrochemical reactions. For use of power batteries, batteries use chemical reactions that naturally create energy, which can be utilised into work.
- Track 14-1Bipolar electrochemistry
- Track 14-2Electro analytical method
- Track 14-3Electrochemical energy conversion
- Track 14-4Electrochemical engineering
- Track 14-5Electrochemical impedance spectroscopy
- Track 14-6Electrochemical potential
- Track 14-7Fuel cells
- Track 14-8Nano electrochemistry
Industrial Inorganic Chemistry is the sub-division of chemical industries that produces the inorganic products on a very large scale such as heavy inorganics and fertilizers as well as division of fine chemicals which are used to produce high purity inorganics on a much smaller scale. Chemical industry adds value to the raw material by transforming them into the chemicals required for the production of consumer goods. Chemical industry faces immense competition from new markets.
- Track 15-1Chemical plants development
- Track 15-2Food microbiology
- Track 15-3Green water treatment
- Track 15-4Waste water treatment
- Track 15-5Petroleum refining and petrochemicals
Green Environmental Chemistry is also known as sustainability chemistry, it is an area of chemistry that focusses on the designing of products and processing techniques which minimise or eliminate the use and generation of harmful substances. Environmental chemistry studies the effect of the polluting chemicals on the nature while green chemistry focuses on the environmental impact of chemistry such as reducing consumption of non-renewable energy sources and technological ways to prevent pollution.
- Track 16-1Aquatic chemistry
- Track 16-2Atmospheric chemistry
- Track 16-3Bioassays and immunoassay
- Track 16-4Environmental measurement and monitoring
- Track 16-5Environmental monitoring
- Track 16-6Environmental quality parameters related to fresh water
- Track 16-7Soil Chemistry
- Track 16-8Pollution
It involves the use channels or stream tubes to observe the reaction rather than doing in a flask or still object. Flow chemistry provides chemists with effective control over the reaction parameters to enhance their reactivity or enabling new reactivity. It is a well-established technique to use in large scale manufacturing units. Application of flow chemistry technique can be seen in active pharmaceutical ingredients or natural products.
- Track 17-1Automated radial synthesis of organic molecules
Bio organometallic Chemistry is the discipline of science which studies the organometallic compounds in biological context. Organometallic compounds means enzymes or cofactors which possess one direct bond with metal carbon. This field is used in the development of new drugs.
- Track 18-1Catalysis
- Track 18-2Organometallic Complexes.
- Track 18-3N-Heterocyclic Carbene
- Track 18-4Organometallic Compound.
- Track 18-5Metallocene.
Analytical Chemistry is the scientific study for the composition and structure of the matter. It uses instruments and methods to separate, identify and quantify the matter. Their results or their solutions to the problems are used by various kinds of industries such as pharmaceuticals, for surety of quality of food and water, and compliance with environmental and other regulations etc. It uses various methods like distillation, extraction, and precipitation to classify the matter.
- Track 19-1Applications of analytical chemistry
- Track 19-2Chromatography
- Track 19-3Electrochemical analysis
- Track 19-4Hybrid techniques related to analytical Chemistry
- Track 19-5Spectroscopy
Agriculture Bio chemistry is the field involving the study of biochemistry from the perspective of application in agricultural scientist. It is a collective study of both agriculture and biochemistry which are important for agriculture production, filtering of raw materials into foods and beverages, and in environmental observation and maintenance. It also focuses on the chemistry of plant and animal metabolism and the biomolecules that are involved in these lanes and then go to the strategies that plant and animals adopts to process those nutrients, their adaption to the environmental conditions and the strategies in which new genetic techniques that can be used to manipulate the growth.
- Track 20-1Agricultural biotechnology
- Track 20-2Technology and sustainable agriculture best practices
- Track 20-3Climate change impacts, mitigation and adaptation
- Track 20-4Renewable energy sources and sustainable agriculture
- Track 20-5Greenhouses and horticulture