Track Categories

The track category is the heading under which your abstract will be reviewed and later published in the conference printed matters if accepted. During the submission process, you will be asked to select one track category for your abstract.

Industrial chemistry is involved in utilizing concoction and physical procedures to change crude substances into items that are extremely helpful to mankind. This comprises of the assembling of essential synthetic concoctions to deliver items for a scope of businesses. Industrial chemistry can be thought of as an endeavor that creates engineered swaps for regular items. Industrial chemistry is a piece of the long chain in the structure and assembling process. Industrial scientific experts manage the thoughts, the plan, the testing, and prototyping of new industrial items. So as to plan something totally new to help settle the imperative issues of the world, their important abilities are inside and out information and use of chemistry and inventiveness with synthetic concoctions. Though a compound designer manages the whole procedure of adjusting crude substances into a gainful, attractive item, an industrial scientific expert would take a gander at the quick and dirty science stuff, investigating the concoction segments and structuring a 'technique' for the item at that point work out the fantastic method to make it. The industrial scientist goes before the concoction engineer during the time spent putting up something for sale to the public. The essential regions of research and instructing are on the impetus and procedure advancement, mechanical and warm unit activities and strategy for substance response engineering. The Chemical Technology licenses proficient assembling of essential, transitional and finished results.

  • Track 1-1Agrochemicals
  • Track 1-2Chemistry in Cosmetics and Textiles
  • Track 1-3Fertilizers, cement, ceramic, glass and paints
  • Track 1-4Fuels & combustion
  • Track 1-5Industrial chemicals production
  • Track 1-6Industrial polymers, metals and composites chemistry
  • Track 1-7Industrial processes, catalysis, white bio technology
  • Track 1-8Membrane technology-nano filtration and reverse osmosis
  • Track 1-9Petrochemicals
  • Track 1-10Sustainable chemical processes
  • Track 1-11Trace Analysis of Petrochemicals
  • Track 1-12Water technology

Forensic Chemistry in its broadest sense is the use of strategies and standards of science with the end goal of the organization of criminal equity framework. Chemistry is a necessary piece of forensic science. Forensic researchers must comprehend the standards, ideas and procedures of chemistry play out their obligations in a viable way. Researchers of different kinds are regularly intrigued by the arrangement of a substance. In any case, the kind of substance may differ as indicated by their tendency to work. Like, pharmaceutical researchers recognize the substances in a medication test to set their expiry dates. Likewise, forensic researchers recognize substance to associate suspects to wrongdoings or to recreate wrongdoing, for example, to decide how wrongdoing has been submitted. Forensic scientific experts perform diverse investigations to recognize materials so as to decide the nature and creation of such proof. An exceedingly prepared forensic scientific expert is equipped for deciding the creation and nature of materials and foreseeing the source just as coordinating confirmations gathered from the wrongdoing scene with the control test. Current chemistry utilizes the conventional diagnostic systems connected at the hip with a lot more youthful strategies for examination. An immense scope of scientific procedures is commonly utilized in forensic investigations. This incorporates bright, obvious and infrared, spectrophotometry; GCMS; high weight fluid chromatography; neutron initiation investigation; and nuclear assimilation spectrophotometry. The decision of method and instrument to be utilized relies upon the kind of test to be investigated.

  • Track 2-1Analysis of seized drugs
  • Track 2-2Atomic absorption spectroscopy
  • Track 2-3Ballistic fingerprinting
  • Track 2-4Bloodstain pattern analysis
  • Track 2-5Drug psycho-physiology
  • Track 2-6Fingerprint analysis
  • Track 2-7Forensic arts
  • Track 2-8Forensic data analysis and methods
  • Track 2-9Forensic toxicology
  • Track 2-10Fourier transform infrared spectroscopy
  • Track 2-11Gas chromatography-mass spectrometry
  • Track 2-12High-performance liquid chromatography
  • Track 2-13Thin layer chromatography

Nuclear Chemistry is the subfield of chemistry dealing radioactivity, nuclear measures, for example, nuclear transmutation, and nuclear properties and Radiochemistry is the chemistry of radioactive materials, where radioactive isotopes of components are utilized to examine the properties and concoction responses of non-radioactive isotopes (regularly inside radiochemistry the nonappearance of radioactivity prompts a substance being depicted as being latent as the isotopes are steady). Quite a bit of radiochemistry manages the utilization of radioactivity to examine common substance responses. This is altogether different from radiation chemistry where the radiation levels are kept too low to even think about influencing the chemistry. Nuclear chemistry and radiopharmaceutical chemistry are progressively used to connect pharmaceutical and therapeutic research with best in class non-intrusive sub-atomic analysis just as with patient-singular treatment.

  • Track 3-1Coordination Chemistry of the Radioactive Elements
  • Track 3-2Migration of radionuclides
  • Track 3-3Nuclear Chain Reactions
  • Track 3-4Nuclear Engineering
  • Track 3-5Nuclear Fuel cycle
  • Track 3-6Nuclear Fusion and Fission
  • Track 3-7Nuclear Medicine
  • Track 3-8Nuclear Physics
  • Track 3-9Nuclear Safety and Security
  • Track 3-10Radiation chemistry
  • Track 3-11Radioanalysis and Radio chemical Separations
  • Track 3-12Radiobiology
  • Track 3-13Radiopharmaceutical chemistry

The Science of Crystallography speaks to the character of a precious stone and basically their Atomic Structure is incredibly pivotal for a large number of the dynamic Scientists whose investigation work relates with materials and their structures. For instance, material science or, Crystal Structure is being utilized by Chemists to get and incorporated new substance mixes and to change its physical properties. Material science is utilized by a large portion of the medicine and medication finding organizations to make supportive changes in medications. Furthermore, material science serves to an investigation into anyway drug target proteins, the atoms that square measure basic for living beings to work legitimately. Materials individual relies upon material science to check new materials having a few Industrial applications. Gems of Li niobate square measure utilized in the media transmission markets.

  • Track 4-1Computational Crystallography
  • Track 4-2Crystallization
  • Track 4-3Electron Crystallography
  • Track 4-4Nano Crystallography
  • Track 4-5Polymer Crystallization
  • Track 4-6Small Molecule Crystallography
  • Track 4-7Super Molecular Crystallography

Petroleum Chemistry is made of a blend of different hydrocarbons. The principal valuable hydrocarbons found inside the art of oil territory unit alkanes, this region unit what is all the more a portion of the time knows about as appropriated or direct hydrocarbons. An essential dimension of the staying development compound is that the contained sweet-seeing hydrocarbons and cycloalkanes. Conjointly oil science contains a couple of all the parcel of problematical hydrocarbons, for instance, asphaltenes. Each land an area Associate in the nursing in the future oil field can pass on foul oil with a substitute blend of particles wagering on the general dimension of each natural compound it contains, this straightforwardly impacts the hue and thickness of the oil science. The basic sort of hydrocarbons inside the investigation of oil region unit the alkanes, that territory unit what is all the more methodically named paraffin. These zone units named immersed hydrocarbons and subsequently the show either expanded or straight atom chains.

  • Track 5-1Catalysis
  • Track 5-2Chemical Applications in Producing Oil and Gas
  • Track 5-3Chemical Reaction Engineering and its Applications
  • Track 5-4Coal and Natural Gas
  • Track 5-5Enhanced Oil & Gas Recovery
  • Track 5-6Entrepreneurs Investment Meet
  • Track 5-7Gas Supply & Gas Technology
  • Track 5-8Health, Safety, and Environment
  • Track 5-9Modeling and Simulation
  • Track 5-10Petro chemicals
  • Track 5-11Petroleum Exploration & Field Management
  • Track 5-12Process Chemistry & Technology
  • Track 5-13Production Technology and Separation Techniques
  • Track 5-14Recent advances in Petrochemistry
  • Track 5-15Renewable Energy and Feedstock
  • Track 5-16Reservoir Engineering
  • Track 5-17Sustainable Energy

This course of science unwinds the cooperation between substances found in the Earth. Marine Chemists decide the measure of waste that can influence water quality and the earth. Geochemists travel to remote surrendered mines to gather tests and perform mining activities with harsh field assessments and afterward assess contaminants traveling through the framework. They may likewise chip away at pipelines and oil apparatuses to counteract blasts or spills. Geochemistry is the science that utilizes the instruments and rules of science to clear up the parts behind significant land systems, for example, the Earth's covering and its seas. The territory of geochemistry associates past the Earth, wrapping the whole Solar System and has made essential duties to the impression of various procedures including mantle convection, the game-plan of planets and the starting phases of stone and basalt. Geochemistry fuses different perspectives like Cosmo science, Organic geochemistry, Photo geochemistry, Isotope geochemistry, Biogeochemistry, Aqueous geochemistry.

  • Track 6-1Actinide/Radionuclide Geochemistry
  • Track 6-2Chemical composition of rocks
  • Track 6-3Cosmo chemistry
  • Track 6-4Environmental Geochemistry
  • Track 6-5Environmental management
  • Track 6-6Geological systems
  • Track 6-7Isotope geochemistry
  • Track 6-8Light stable Isotope Geochemistry
  • Track 6-9Metallic Element Stable Isotope Geochemistry
  • Track 6-10Mining companie
  • Track 6-11Oil companies
  • Track 6-12Organic geochemistry
  • Track 6-13Petroleum Geochemistry
  • Track 6-14Photo geochemistry
  • Track 6-15Stable isotope Geochemistry

Spectroscopy is the inspection of the association amongst issue and electromagnetic radiation. Generally, spectroscopy started through the examination of perceptible light dissipated by its wavelength, by a valuable stone. Later the contemplation was extended basically to combine any joint exertion with radiative vitality as a fragment of its wavelength or rehash. Spectroscopic information is much of the time tended to by a transmission run, a plot of the reaction of excitement as a segment of wavelength or rehash. Mechanical frameworks that vibrate or flounder will encounter extensive adequacy developments when they are driven at their full rehash. A plot of plentifulness versus excitation rehash will have a zenith focused on the reverberation rehash. This plot is one kind of range, with the zenith regularly recommended as an incredible line, and most phantom lines have a for all intents and purposes indistinguishable appearance.

  • Track 7-1Analytical Spectroscopy
  • Track 7-2Infrared Spectroscopy Life
  • Track 7-3Photoemission spectroscopy
  • Track 7-4Scanning tunneling spectroscopy
  • Track 7-5Small Molecule Spectroscopy and Dynamics
  • Track 7-6Spectroscopy and Molecular Structure
  • Track 7-7Ultraviolet visible spectroscopy
  • Track 7-8Vibrational Spectroscopy
  • Track 7-9X-Ray Spectroscopy and X-ray photoelectron spectroscopy (XPS)

The zone of clinical pathology, that is worried about the investigation of pee, blood (entire blood, serum, plasma), body liquids for screening, conclusion, and checking of various ailments. Clinical chemistry tests are assorted and to a great extent utilized for an endocrine issue like diabetes, thyroids, kidney issue, cardiovascular disarranges, barrenness, pregnancy, nourishing clutters (nutrients, substantial and follow metals), malignant growths, infant screening, autoimmunity and sensitivity, contaminations, and so forth. Clinical tests are taken to distinguish the progressions when contrasted with the natural reference interim of people. A wide scope of strategies like chemiluminescence, Immunoassays, radioimmunoassay, Biochemical techniques like colorimetry, enzymatic responses, spectrophotometry, nephelometry, electrophoresis, protein connected flourescence, Analytical chemistry techniques like elite fluid chromatography, nuclear assimilation, mass spectrometry, infrared spectrometry, and so forth are utilized by Clinical pathologists and natural chemists to identify and control ailments.

  • Track 8-1Analytical chemistry method
  • Track 8-2Atomic absorption
  • Track 8-3Autoimmunity
  • Track 8-4Biochemical method
  • Track 8-5Cardiovascular disorders
  • Track 8-6Chemiluminescence
  • Track 8-7Clinical tests
  • Track 8-8Colorimetry
  • Track 8-9Electrophoresis
  • Track 8-10Endocrine disorders
  • Track 8-11Enzymatic reactions
  • Track 8-12High performance liquid chromatography
  • Track 8-13Immunoassays
  • Track 8-14Infrared spectrometry
  • Track 8-15Clinical pathology
  • Track 8-16Mass spectrometry
  • Track 8-17Nephelometry
  • Track 8-18Nutritional disorders
  • Track 8-19Radioimmunoassay
  • Track 8-20Spectrophotometry
  • Track 8-21Gene Regulation and Genetics

Analytical Chemistry is an efficient science study and uses instruments and procedures used to explicit, see, and measure matter. Fundamentally package, perceiving affirmation or appraisal may establish the whole examination or be joined with another procedure. Division pulls back analytes. Emotional examination sees analytes, while quantitative examination picks the numerical entire or fixation. Analytical science contains set up, wet creation systems and present day, instrumental strategies. Conventional emotional procedures use allocations, for example, precipitation, extraction, and refining.  The expansive field of analytical and bioanalytical chemistry covers the improvement of instruments for mass spectrometry, Metallomics, ionics, and the analytical portrayal of nano-and biomaterials. Among these the energetic and bleeding edge field that gets wide research intrigue is bioanalysis. The advanced fields in Analytical and Bioanalytical Chemistry are instrumental improvements for analytical proteomics, imaging, advancement of scaled-down gadgets, sensors, chemometrics and examining techniques. Issues in pharmaceutical businesses are illuminated by the use of bioanalytical procedures, making new advancements in the biomedical field.

  • Track 9-1Analytical Techniques for Clinical Chemistry
  • Track 9-2Chemical Analysis
  • Track 9-3Chromatographic & Electrophoretic
  • Track 9-4Electrochemical Analysis
  • Track 9-5Electrochemical Methods
  • Track 9-6Equilibrium Chemistry
  • Track 9-7Gravimetric Methods
  • Track 9-8Separation Techniques
  • Track 9-9Spectroscopic Methods
  • Track 9-10Standardizing analytical Methods
  • Track 9-11Titrimetric Methods

The utilization of physical standards and estimations to comprehend the properties of issue, just as for the advancement of new innovations for nature, vitality and drug is Physical Chemistry. Progressed Physical Chemistry subjects comprise of various spectroscopic techniques going from ultrafast and mass spectroscopy, atomic attractive and electron paramagnetic reverberation, x-beam ingestion and nuclear power microscopy, additionally hypothetical and computational tools. Theses devices give nuclear dimension comprehension to applications, for example, bury facial chemistry of catalysis and inserts, electron and proton exchange, protein work, photosynthesis, nanodevices for bio-identification and receptors. The hole between the hypotheses and strategies of cutting edge material science and concoction frameworks is filled by Physical chemistry. Physical and hypothetical scientific experts work to unwind the wonders that oversee all parts of the physical world by utilizing propelled portrayal and computational techniques. Propelled portrayal strategies is connected to an assorted scope of points – vitality stockpiling materials for electric vehicles, organically applicable proteins to comprehend degenerative ailments, photograph instigated sub-atomic changes and complex surface properties by Physical scientists. As to improve our comprehension of all parts of chemistry, directly down to the idea of compound holding, Theoretical scientific experts work to build up quantum mechanical strategies.

  • Track 10-1Chemical Kinetics
  • Track 10-2Chemical thermodynamics
  • Track 10-3Homogeneous and heterogeneous catalysis
  • Track 10-4Petroleum Chemistry
  • Track 10-5Physical chemistry: a molecular approach
  • Track 10-6Quantum Mechanics in Chemistry
  • Track 10-7Solid-state Chemistry
  • Track 10-8Statistical Mechanics
  • Track 10-9Surface science

The investigation of the association among structure and reactivity of natural particles is Synthetic Chemistry. An examination on the most proficient method to fabricate complex natural mixes from basic ones, is the fundamental point of Synthetic Chemistry. Creating natural mixes of business implies is the use of Synthetic Chemistry. The structure of natural particles is considered by applying physical concoction science onto the test apparatuses of synthetic science. These investigations give a hypothetical system that deciphers anyway Synthetic Chemistry structure impacts every instrument and rates of natural responses. The examination in Synthetic Chemistry will empower us to grow new systems for enantioselective catalysis, C-H bond enactment, the change of inexhaustible assets to new feedstocks and fills and for vitality proficient combination courses. The intensity of synthetic and biocatalysis is used with regards to biomedical research, in the territory of economic vitality, to create practical compound combination systems.

  • Track 11-1Biocatalysis
  • Track 11-2Biomedical research
  • Track 11-3C-H bond activation
  • Track 11-4Enantioselective catalysis
  • Track 11-5Energy-efficient synthesis
  • Track 11-6Physical chemical science
  • Track 11-7Structure and reactivity of organic molecules
  • Track 11-8Sustainable chemical synthesis
  • Track 11-9Sustainable energy

Polymer Chemistry is so inescapable and pertinent self-restraint in the contemporary circumstance that it is unnecessary to spend a lot of words to accentuate its job. In actuality, it has been proposed to assign our time as the polymer age, to stamp its enormous contrast from going before humanity times commanded by method for an arrangement of different materials (the stone, the bronze, the iron ages) and to comment that our way of life would be scarcely ever useful other than polymers. The approach and the world scale foundation of the polymer innovation have formed our general surroundings and have significantly changed its points of view, as it occurs for any progressive innovation. In spite of the inconceivable accomplishments we have seen close by the years, many energizing difficulties stay to be confronted; these are legitimately worth to deal with because of the reality of their affect our regular day to day existence: precedents include green polymer chemistry, natural contamination issues, polymers for vitality stockpiling and conveyance, polymers for the human wellbeing.

  • Track 12-1Biodegradable Polymers
  • Track 12-2Biopolymers and Biomaterials
  • Track 12-3Catalysts for Polymerization
  • Track 12-4Diffusion in Polymers
  • Track 12-5Functional Polymers and its Applications
  • Track 12-6Nanopolymers and Nanotechnology
  • Track 12-7Polymer Design and Reaction
  • Track 12-8Polymer Engineering and Technology
  • Track 12-9Polymer Physics and Characterizations
  • Track 12-10Recent Developments in Polymer Synthesis
  • Track 12-11Structure and Dynamics in Polymer Colloids
  • Track 12-12Supramolecular Polymers

The part of Chemistry whose essential center is the utilization of quantum mechanics in physical models and trials of concoction frameworks is Quantum chemistry or Molecular quantum mechanics. Normal techniques utilized by quantum scientists to get data in regards to the quantization of vitality on an atomic scale is by atomic attractive reverberation (NMR) spectroscopy, infra-red (IR) spectroscopy and checking test microscopy. The working of Theoretical quantum chemistry falls under the classification of computational chemistry. Quantum substance speculations clarify the structure of the intermittent table, and quantum concoction counts give exact expectations of the structures of particles and the spectroscopic conduct of iotas and atoms.

  • Track 13-1Ballistic fingerprinting
  • Track 13-2Computational chemistry
  • Track 13-3Infra-red (ir) spectroscopy and
  • Track 13-4Molecular quantum mechanics
  • Track 13-5Nuclear magnetic resonance (nmr) spectroscopy
  • Track 13-6Quantum chemical theories
  • Track 13-7Quantum mechanics
  • Track 13-8Scanning probe microscopy
  • Track 13-9Theoretical quantum chemistry

Neurochemistry deals with the techniques happening in the tactile framework and nerve tissues. One of these methods is Neurotransmission, wherein, the joint effort at the synapse occurs with the help of synapses, for instance, Dopamine, Acetylcholine, Norepinephrine, Glutamate, Serotonin, Gamma-aminobutyric destructive (GABA), Endogenous narcotics, etc. The development of molecule channels encourages synapse receptors to get the signs. This part is adjusted by the various meds, as a treatment strategy of neurological issue. The overall ideas of prescriptions to treat dynamic dementia with other neurological inconsistencies foreseen that would reach $537.2 million of each 2012 and $913.7 million by 2017, at a CAGR of 11.2% over the five-year check period. These are the synthetic compounds brought into the Photoswitchable ligands into molecule channels stirrups the possible strategies for different pieces of synapses and receptors in the tactile framework.

  • Track 14-1Chemical Neurobiology
  • Track 14-2Immuno neurochemistry
  • Track 14-3Key Aspects of Neurochemistry
  • Track 14-4Molecular Mechanisms & Regulation of Nervous System
  • Track 14-5Molecular Neurobiology
  • Track 14-6Neuroinflammation
  • Track 14-7Neuroinflammation and Neuroimmunology
  • Track 14-8Neuropharmaceuticals and Therapeutics
  • Track 14-9Nursing Skills

Organic chemistry is the field of chemistry that bargain with mixes of carbon and hydrogen, close by a humble group of unmistakable components basically oxygen, nitrogen, silicon, sulfur, and phosphorus Organic chemistry obliges the scopes of organic amalgamation, blend strategies, response systems and energy, and scientific procedures, for example, chromatography (TLC, GC, HPLC), and structure assurance and spectroscopic methods, for example, NMR and IR. It furthermore comprises of organometallic chemistry, examination of carbon-based aggravates that include metals and added regularly that join components other than the few indicated already. Strategies for common chemistry are energetically used as a piece of polymer science, materials science, restorative chemistry, and normal item chemistry.

  • Track 15-1Aromatic compounds: reactions and synthesis
  • Track 15-2Chemical ecology of medicinal plants
  • Track 15-3Flow chemistry
  • Track 15-4Fullerenes
  • Track 15-5Heterocyclic chemistry
  • Track 15-6Microwave synthesis
  • Track 15-7Organometalic compounds
  • Track 15-8Photochemistry and pericyclic reactions
  • Track 15-9Retrosynthetic analysis
  • Track 15-10Stereochemistry

Plasma chemistry is the part of chemistry that surveys substance frames in low-temperature plasma, including the laws that regulate reactions in plasma and the nuts and bolts of plasma compound development. Plasmas are misleadingly conveyed in plasmatrons at temperatures that go from 103 to 2 × 104 K and loads that run from 10– 6 to 104 conditions. Correspondence between the reagents in plasma realizes the course of action of last, or terminal, things; these things can be ousted from the plasma by quick cooling, or stifling. The crucial component of all plasmochemical shapes is that responsive particles are created in basically higher concentrations than under ordinary conditions of engineered reactions. The responsive particles that are made in plasma are fit for influencing new sorts of substance reactions; the particles join empowered molecules, electrons, particles, atomic and sub-nuclear particles, and free radicals. Without a doubt, a portion of these particles can simply exist in the plasma state.

  • Track 16-1Atmospheric Plasma
  • Track 16-2Electric Discharge in Plasma Chemistry
  • Track 16-3Elementary Plasma Chemical Reactions
  • Track 16-4Fourth State of Matter
  • Track 16-5Gas phase Inorganic Synthesis in Plasma
  • Track 16-6Ion and Plasma Thrusters
  • Track 16-7Organic and Polymer Chemistry
  • Track 16-8Plasma Chemical Kinetics
  • Track 16-9Plasma Chemistry and Surface Processes
  • Track 16-10Plasma Chemistry in Lasers and light sources
  • Track 16-11Plasma Electrodynamics
  • Track 16-12Plasma Ignition
  • Track 16-13Plasma in Tissue Engineering
  • Track 16-14Plasma Thermodynamics
  • Track 16-15Quasi -neutral

The broadness of present-day inorganic chemistry is reflected in the examination interests containing coordination mixes, Organometallic buildings, and bioinorganic particles. Inorganic scientific experts are keen on the majority of the components in the occasional table with a unique accentuation on progress metal components. Natural investigations of Inorganic chemistry bargains on the connection between protein structure and long-ago electron exchange, the job of metalloenzymes in catalysis. Inorganic chemistry portrays, make, comprehend and create apparatuses to look into inorganic and cross breed natural inorganic particles. Bioinorganic chemistry is about the structure, capacity, system, and elements of naturally pertinent metal buildings and metal-containing proteins.

  • Track 17-1Bioinorganic chemistry
  • Track 17-2Coordination & organometallics chemistry
  • Track 17-3Crystallography
  • Track 17-4Human Nutrition
  • Track 17-5Hydrogenation
  • Track 17-6Ligand field theory
  • Track 17-7Mechanistic inorganic chemistry
  • Track 17-8Stereo chemistry
  • Track 17-9Supramolecular system chemistry
  • Track 17-10Synthetic inorganic chemistry

Biochemistry is the part of science that investigates the substance forms inside and identified with living life forms. It is a lab-based science that unites science and science. By utilizing concoction learning and methods, natural chemists take care of organic issues. Biochemistry centers around procedures at the atomic dimension. It centers around what's going on inside our cells, contemplating segments like proteins, lipids, and organelles. It additionally takes a gander at how cells speak with one another, for instance amid development or battling ailment. Natural chemists need to see how the structure of an atom identifies with its capacity, enabling them to foresee how particles will associate.  Biochemistry has turned into the establishment for seeing every natural procedure. It has given clarifications to the reasons for some illnesses in people, creatures and plants. It can every now and again propose ways by which such ailments might be dealt with or relieved.

  • Track 18-1Advances in biochemistry
  • Track 18-2Biochemical cycles
  • Track 18-3Biochemical energy
  • Track 18-4Carbohydrates
  • Track 18-5Drug activity
  • Track 18-6Electron transport
  • Track 18-7Enzymes
  • Track 18-8Food chemistry
  • Track 18-9Medicinal biochemistry
  • Track 18-10Metabolism of bio-molecules
  • Track 18-11Molecular biology
  • Track 18-12Nucleic acids & Proteins
  • Track 18-13Plant and animal biochemistry
  • Track 18-14Structural and molecular biochemistry

The part of physical science that bargains with the connection between power, a quantifiable and quantitative wonder, and substance change is Electrochemistry. Electrochemical techniques are generally utilized in different parts of industry be it, the down to earth significance of electrochemical procedures, job of the procedures in living creatures, and the novel highlights of their trial contemplate have prompted the development of electrochemistry as an individualistic logical order. Synthetic Industry uses electrolysis, the most critical technique for the creation of alkalies, many oxidizing specialists, chlorine, fluorine, and organofluorine mixes. The organic procedures identified with the working of natural films, for example, the discovery of the visual picture, the transmission of the anxious drive and the absorption and utilization of sustenance vitality are unimaginable without electrochemical connections. Electrochemistry leads new undertakings for hypothetical electrochemistry and will fundamentally influence future restorative practice.

  • Track 19-1Bioelectrochemistry
  • Track 19-2Ecological Electrochemistry
  • Track 19-3Electric and Magnetic Field Effects
  • Track 19-4Electrochemical Engineering
  • Track 19-5Industrial Electrochemistry
  • Track 19-6Interfacial Electrochemistry
  • Track 19-7Metallurgical Electrochemistry
  • Track 19-8Semiconductor Electrochemistry
  • Track 19-9Sensors

Agricultural scientific experts work with food makers to expand yields, improve quality, and diminishing expenses. They also find out about the causes and results of biochemical responses related with plant and creature development, are looking for ways to deal with deal with these responses, and create compound items that supply help in controlling these responses. Compound items created to help in the generation of food, feed, and fiber comprise of herbicides, fungicides, bug sprays, plant development controllers, composts, and creature feed supplements. Agricultural chemistry is frequently connected to food and fiber creation, explicitly for human utilization. By understanding key thoughts in agricultural chemistry, we can make utilization of the dirt asset to create an adequate food supply and guard the earth.

Food chemistry is finding out about concoction procedures and connections of all organic and non-natural components of foods. His work in the food scientist depends intently on aptitude in chemistry. Then again, food chemistry is moreover identified with biochemistry (particularly in finding out about compound changes of food constituents) and the exploration of sustenance (nutritive expense of foods, contaminants) and microbiology (decay and protection, food security). Sustainability of crop production, processing and consumption

  • Track 20-1Chemical reactions in food
  • Track 20-2Fertilizers and chemicals
  • Track 20-3Food packaging & preservation
  • Track 20-4Food quality, integrity, and safety
  • Track 20-5Food science & technology
  • Track 20-6Methodologies and applications in food analysis
  • Track 20-7Plant & animal bio technology
  • Track 20-8Plant protection and fertilization
  • Track 20-9Risk/benefits evaluation of food components

Catalysis is the way toward expanding the rate of a compound response by including a substance known as a catalyst, which isn't devoured in the catalyzed response and can keep on acting over and again. Along these lines, without a doubt, little measures of catalyst are required to change the response rate on a basic level. When all is said in done, compound responses happen quicker within the sight of a catalyst on the grounds that the catalyst furnishes an elective response pathway with lower actuation vitality than the non-catalyzed component. In catalyzed components, the catalyst more often than not responds to frame a transitory middle of the road, which at that point recovers the first catalyst in a cyclic procedure. A substance which furnishes a component with higher actuation vitality does not diminish the rate in light of the fact that the response can, in any case, happen by the non-catalyzed course. An additional substance which reduces the response rate isn't viewed as a catalyst however a response inhibitor. Catalysts might be delegated either homogeneous or heterogeneous. A homogeneous catalyst is one whose atoms are scattered in a similar stage (typically vaporous or fluid) as the reactant's particles. A heterogeneous catalyst is one whose particles are not in an indistinguishable stage from the reactant's, which are normally gases or fluids that are adsorbed onto the outside of the strong catalyst. Compounds and different biocatalysts are regularly considered as a third class.

  • Track 21-1Bioinspired Catalysis and Coordination Chemistry
  • Track 21-2Heterogeneous catalysts
  • Track 21-3Homogeneous catalysts
  • Track 21-4Photo-redox Catalysis
  • Track 21-5Reaction energetics
  • Track 21-6The future development of plasmonics, catalysis, and hot-electron science.
  • Track 21-7Transition-metal-based non-protein catalysts

Environmental chemistry is an especially engaged part of chemistry, containing parts of natural chemistry, systematic chemistry, physical chemistry, and inorganic chemistry, just as progressively different territories, for example, science, toxicology, biochemistry, general wellbeing, and the study of disease transmission. Environmental scientific experts work in an assortment of open, private and government research facilities. One of the environmental chemistry's chief difficulties is the assurance of the nature and amount of specific toxins in the earth. In this manner, synthetic investigation is a significant initial phase in environmental chemistry inquire about. Green chemistry is joined as research center investigations to instruct future scientific experts about bleeding edge reasonable advancements. Numerous Environment Institutes work near find answers for Earth's most squeezing environmental issues by directing transformative research. Synthetic items and procedures that diminish or kill the utilization of dangerous substances are planned, having the objective to dispose of contamination and to upgrade effectiveness, to spare assets and vitality, and to accomplish reasonable advancement of chemistry and the compound business.

  • Track 22-1Analytical methods
  • Track 22-2Aquatic photochemistry
  • Track 22-3Atmospheric particles
  • Track 22-4Chemical industry
  • Track 22-5Hazardous substances
  • Track 22-6Pollution
  • Track 22-7Reactive surfaces
  • Track 22-8Renewable feedstocks
  • Track 22-9Sustainable technologies

Materials chemistry incorporates the utilization of chemistry for the plan and amalgamation of substances with captivating or conceivably valuable physical qualities, for example, attractive, optical, auxiliary or synergist properties.  It is essential in symbolizing fashioned by substances physicists. Instead of in basic terms review properties, the materials physicist attempts to control the manufactured strategy to create a favored capacity. The connection between the technique for amalgamation and the structure of the last item is basic to a materials scientific expert. Practical substances are building squares of current society and play an urgent capacity in the advancement of innovation. Materials chemistry is one of a kind in showing the scholarly premise to a configuration, make, and perceive new types of issue, let it be natural, inorganic, or crossbreed materials. From nanomaterial and sub-atomic gadgets to polymers and delayed solids, chemistry is building up a universe of new materials as impetuses, sensors, sub-atomic transporters, counterfeit platforms, sub-atomic channels, and light-transmitting or electron-leading groups, with the potential for broad logical and societal effect.

  • Track 23-1Analytical techniques and instrumentation in materials chemistry
  • Track 23-2Composite materials
  • Track 23-3Current trends in materials chemistry
  • Track 23-4Electronics, photonics, and spintronics
  • Track 23-5Material chemistry for electrochemical capacitors
  • Track 23-6Materials science and chemistry
  • Track 23-7Materials synthesis and characterization
  • Track 23-8Metallurgy processes
  • Track 23-9Science and technology of advanced materials

Nano science and innovation is the part of science that reviews frameworks and controls matter on nuclear, atomic and supra sub-atomic scales (the nanometre scale). On such a length scale, quantum mechanical and surface limit impacts end up being important, giving properties on materials that are presently not detectable on bigger, naturally visible length scales.  Nanotechnology, the control of tally at the nuclear and atomic scale to make substances with strikingly unique and new properties, is a quickly expanding zone of research with enormous potential to reform our lives and to supply innovative answers for our issues in horticulture, vitality, nature and medication. So as to completely comprehend this potential, we need to almost certainly deal with the amalgamation of nanoparticles, the advancement of nano-gadgets, and the portrayal of materials on the nano scale and to comprehend the impacts of these things on condition and wellbeing.

  • Track 24-1Computational nanotechnology
  • Track 24-2Graphene and Fluorographene
  • Track 24-3Molecular nanotechnology
  • Track 24-4Nano bio materials
  • Track 24-5Nano crystals and Clusters
  • Track 24-6Nano electronics
  • Track 24-7Nano materials and nano particles
  • Track 24-8Nano particles
  • Track 24-9Nano particles and quantum dots
  • Track 24-10Nano structured Materials
  • Track 24-11Nanotechnology other applications
  • Track 24-12Preparation of magnetic nanoparticles and its bio-medical application
  • Track 24-13Quantum dot Imaging
  • Track 24-14Related Conference of Nano

Pharmaceutical chemistry is the investigation of medication mixes, and it includes the medication improvement process. This incorporates medicate disclosure, conveyance, retention, digestion, circulation, and discharge. There are mechanisms of biomedical exploration, pharmacology, pharmacokinetics, and pharmacodynamics. Pharmaceutical chemistry work is usually done in investigation capability circumstances it for the most part contains fixes and solutions for malady, diagnostic systems, pharmacology, digestion, quality control, quality affirmation, and medication chemistry. Pharmaceutical chemistry prompts professions in medication advancement, pharmaceutical ventures, and research offices. Pharmaceutical physicists are engaged with the improvement and appraisal of helpful mixes. Each synthetic that is integrated must be tried for natural movement. The field of pharmaceutical chemistry is extraordinary and it includes huge subject matters.

  • Track 25-1Analytical techniques
  • Track 25-2Biomedical analysis
  • Track 25-3Drug Chemistry
  • Track 25-4Drug delivery
  • Track 25-5Drug Discovery and Drug Development
  • Track 25-6Drug Formulation
  • Track 25-7Drug metabolism
  • Track 25-8Medical analysis
  • Track 25-9Pharmaceutical Marketing
  • Track 25-10Pharmaceutical Packaging and Logistics
  • Track 25-11Pharmacodynamics
  • Track 25-12Pharmacokinetics
  • Track 25-13Pharmacology
  • Track 25-14Pharmacology & Ethnopharmacology
  • Track 25-15Traditional Medicine

Medicinal Chemistry is a strengthening field since it joins diverse reasonable plans and requires into thought made effort with totally startling examiners in endeavoring into and growing new solutions white room Pharmaceutical manufactory. Medicative Chemistry experts apply their science making arranged to the path toward pack action new supported medications. They likewise improve the systems by that current embraced cures square measure made. Accommodating legitimate bosses square measure centered around fix divulgence and progress and square measure fomented as for the unit of healing managers found in plants, and besides the creation of latest arranged calm mixes. Most legitimate geniuses work with a gaggle of investigators from changed requests, together with understudies, toxicologists, pharmacologists, hypothetic physicists, microbiologists, and bio sedate pros. Together, this gathering utilizes refined illuminating ways to deal with fuse and research new solution things and to make up the head financially gifted and naturally all around arranged courses for creation.

  • Track 26-1Synthetic chemistry
  • Track 26-2Synthetic organic chemistry
  • Track 26-3Therapeutic agents
  • Track 26-4Toxicology
  • Track 26-5Bioorganic chemistry
  • Track 26-6Chemical biology
  • Track 26-7Chemical synthesis
  • Track 26-8Chemogenomics
  • Track 26-9Computational chemistry
  • Track 26-10Drug design
  • Track 26-11Drug research
  • Track 26-12Enzymology
  • Track 26-13Inorganic and organometallic compounds
  • Track 26-14Pathobiochemistry
  • Track 26-15Pharmaceutical agents
  • Track 26-16Pharmacogenomics
  • Track 26-17Process chemistry and development
  • Track 26-18Structural biology
  • Track 26-19Synthetic chemistry