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.

Chemical engineering is a branch of engineering that applies physical sciences, life sciences, together with connected arithmetic and financial aspects to create, change, transport, and legitimately utilize chemicals, materials, and vitality. Chemical engineering is likewise worried about spearheading significant new materials and new strategies, for example, nanotechnology, power devices, and biomedical engineering. The worldwide chemical industry and market investigation, evaluated at U.S. $2.4 trillion, is one of the quickest developing business areas of the assembling business. It likewise dispatched 3.4 billion dollars of chemicals all inclusive crosswise over areas in 2009.

  • Track 1-1Biofuels
  • Track 1-2Thermodynamic Process
  • Track 1-3Advances in Renewable Chemicals
  • Track 1-4Biochemical Engineering
  • Track 1-5Process Design and Control
  • Track 1-6Chemistry Usage In Chemical Engineering
  • Track 1-7Biomolecular Engineering
  • Track 1-8Electrochemical Engineering
  • Track 1-9Photochemistry and Pericyclic reactions

Electrochemistry is the branch of science that plans with the manufactured movement of energy and the age of energy by compound reactions. In a world short of imperativeness sources yet long on essentialness use, electrochemistry is a fundamental piece of the mix vital to keep the world economies developing. Electrochemistry is the coherent examination of the compound species and reactions that occur at the interface between an electron conductor and a molecule conductor in which an electron trade occurs between the anode and the electrolyte in the course of action.

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

Analytical chemistry is the investigation of the partition, identification, quality control and quality of affirmation of the synthetic parts of characteristic and manufactured materials. The support of a coveted level of value in an exceedingly administration or item, especially by implies that of consideration regarding each phase of the technique for conveyance or creation. Bioanalytical Chemistry could be a sub-division of Analytical Chemistry that covers the estimating of pharmaceutical, Ion sensors, Proteins and DNA in unnatural examples or focuses.

  • Track 3-1Advances in separation methods
  • Track 3-2Chromatographic and electrophoretic methods
  • Track 3-3Quantitative Analysis
  • Track 3-4Wet chemical methods
  • Track 3-5Flow Analysis
  • Track 3-6Advances in electro-analysis
  • Track 3-7Chemo-metrics
  • Track 3-8Process Analytical Chemistry
  • Track 3-9Electrophoresis
  • Track 3-10Bioanalytical Methodology

Physical Chemistry is the investigation of perceptible nuclear subatomic, and particulate marvels in substance frameworks as far as the standards, practices, and ideas of material science, for example, movement, vitality, constrain, time, thermodynamics, quantum chemistry, factual mechanics, explanatory elements and compound harmony, mixes the standards of physical science and chemistry to consider the physical attributes, or properties, of atoms. By understanding these properties, we take in more about the manner by which atoms are assembled, and in addition how the real structure of a concoction is affected by these properties. Logical investigation of the properties and conduct of synthetic frameworks principally by physical hypothesis and procedure.

  • Track 4-1Chemical Kinetics
  • Track 4-2Radiation Chemistry
  • Track 4-3Quantum Chemistry
  • Track 4-4Thermochemistry
  • Track 4-5Biophysical Chemistry
  • Track 4-6Femtochemistry
  • Track 4-7Physical Chemistry of Macromolecules
  • Track 4-8Chemical Physics

Spectroscopy is the investigation of the connection amongst issue and electromagnetic radiation. Generally, spectroscopy started through the investigation of noticeable light scattered by its wavelength, by a crystal. Later the idea was extended significantly to incorporate any collaboration with radiative vitality as a component of its wavelength or recurrence. Spectroscopic information is regularly spoken to by an emanation range, a plot of the reaction of enthusiasm as an element of wavelength or recurrence. One of the focal ideas in spectroscopy is a reverberation and its comparing full recurrence. Resonances were first described in mechanical frameworks, for example, pendulums. Mechanical frameworks that vibrate or waver will encounter substantial adequacy motions when they are driven at their full recurrence. A plot of plentifulness versus excitation recurrence will have a pinnacle focused on the reverberation recurrence. This plot is one kind of range, with the pinnacle regularly alluded to as an otherworldly line, and most phantom lines have a comparable appearance.

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

Biochemistry is a concoction procedure which manages the structures, capacities, and cooperations of natural macromolecules which decide the structure of cells and for the most part relies on the response of littler particles and particles happening inside a cell. Biochemistry covers an extensive variety of logical orders which covers legal sciences, atomic science, hereditary qualities, plant science and prescription and that why from most recent 100 years numerous propelled kinds of research and testing research works has been completed in this field. Biochemistry has turned into the establishment for every single natural process. It underlies and incorporates such energizing new fields as sub-atomic hereditary qualities and bioengineering. Biochemistry is additionally special in giving educating and research in both protein structure/work and hereditary designing. Biochemistry additionally incorporates numerous subspecialties, for example, neurochemistry, bioorganic science, clinical biochemistry, physical biochemistry, sub-atomic hereditary qualities, biochemical pharmacology, and immunochemistry. Recent advances in these regions have made connections among innovation, compound designing, and biochemistry.

  • Track 6-1Clinical Biochemistry
  • Track 6-2Biological macromolecules
  • Track 6-3Biopolymers
  • Track 6-4Digital Biochemistry
  • Track 6-5Metabolisms and metabolic pathways
  • Track 6-6Amino Acids & Structural Biochemistry
  • Track 6-7Clinical and Nutritional Biochemistry
  • Track 6-8Bioorganic and Biological Chemistry
  • Track 6-9Plant Biochemistry
  • Track 6-10Cardiac Biochemistry

Organic Chemistry is the investigation of the structure, properties, organization, responses, and readiness of carbon-containing mixes, which incorporate hydrocarbons as well as mixes with any number of different components, including hydrogen (most mixes contain no less than one carbon–hydrogen security), nitrogen, oxygen, incandescent light, phosphorus, silicon, and sulphur. This branch of science was initially constrained to mixes created by living beings yet has been expanded to incorporate human-made substances, for example, plastics. The scope of utilization of natural products is gigantic and furthermore incorporates, however is not constrained to, pharmaceuticals, petrochemicals, sustenance, explosives, paints, and beauty care products.

  • Track 7-1Organic reaction synthesis
  • Track 7-2Retrosynthetic analysis
  • Track 7-3Flow chemistry
  • Track 7-4Heterocyclic compounds
  • Track 7-5Biochemistry & Natural Products
  • Track 7-6Organometallic compounds
  • Track 7-7Microwave synthesis
  • Track 7-8Fullerenes
  • Track 7-9Stereochemistry
  • Track 7-10Physical Organic Chemistry
  • Track 7-11Organic Synthesis And Technologies
  • Track 7-12Fluorous Chemistry
  • Track 7-13Biotransformations in Organic Chemistry
  • Track 7-14Photochemistry and Pericyclic reactions

Inorganic Chemistry is the investigation of the structures, properties, and practices and responses, of components, blends in arrangements, and synthetic exacerbates that don't contain carbon-hydrogen bonds, Industrial inorganic chemistry incorporates subdivisions of the compound business that fabricate inorganic items on a huge scale, for example, the substantial inorganics sulfates chlor-soluble bases, sulfuric corrosive, and manures. The synthetic business increases the value of crude materials by changing them into the chemicals required for the make of buyer items. The best 20 inorganic chemicals produced in India, Japan, Canada, China, Europe and the US in the year 2005. Customarily, the size of a country's economy could be assessed by their profitability of sulfuric corrosive. Inorganic chemistry is a very down to earth zone of science. Inorganic mixes which are for the most part made are hydrogen, hydrogen peroxide, nitric corrosive, nitrogen carbon dark, chlorine, hydrochloric corrosive, oxygen, phosphoric corrosive, sodium carbonate, sodium chlorate, sodium hydroxide, sodium silicate, sodium sulfate, sulfuric corrosive, aluminum sulfate, smelling salts, ammonium nitrate, ammonium sulfate and titanium dioxide. The assembling of composts is another reasonable use of modern inorganic chemistry.

  • Track 8-1The chemical industry
  • Track 8-2Nitrogen Compounds
  • Track 8-3Sulfuric Acid and Sulfates
  • Track 8-4Sources of Inorganic Raw Materials
  • Track 8-5Phosphorus Compounds
  • Track 8-6Chlor-Alkali Compounds
  • Track 8-7Titanium Dioxide
  • Track 8-8Inorganic Chemistry of Materials and Bio-Inorganic Catalysis

Materials science and pharmaceutical science are orders at the convergence of science, particularly manufactured natural science, and pharmacology and different other organic strengths, where they are included with electrochemical amalgamation and improvement for market of pharmaceutical operators, or bio-dynamic particles (drugs). Compounds utilized as medicaments are frequently natural compounds, which are regularly isolated into the classes of little natural particles (e.g., atorvastatin) and "biologics" (erythropoietin, insulin), the latter of which are most often medicinal arrangements of proteins (characteristic and recombinant antibodies, hormones, and so on.). Inorganic and natural mixes are likewise valuable as medications (e.g., lithium and platinum-based specialists, for example, lithium carbonate and cis-platin.

  • Track 9-1Preparation of chemical formulations
  • Track 9-2Mechanism of action of materials in formulations
  • Track 9-3Altering the action by using as excipients in formulations
  • Track 9-4Treatment of current diseases using prototype materials
  • Track 9-5Electronic and photonic materials
  • Track 9-6Catalytic materials for energy
  • Track 9-7Optimization of materials and structures
  • Track 9-8Superconducting Materials

The examination of Polymer science or polymer sciences begins with understanding the techniques in which these materials are consolidated. Polymer combination is a mind boggling philosophy and should be possible in various ways. Choice polymerization depicts the methodology where monomers are added one by one to a dynamic site on the creating chain. Polymers are huge macromolecules made out of reiterating helper units. While polymer in noticeable utilize proposes plastic, the term truly suggests a tremendous class of ordinary and designed materials. On account of the momentous extent of properties, polymer sciences have come to assume a vital part from plastics and elastomers from one perspective to normal biopolymers, for instance, DNA and proteins.

  • Track 10-1Polymerization methods
  • Track 10-2Applications of Biopolymers
  • Track 10-3Polymerization mechanisms and kinetics
  • Track 10-4Characterization of polymers
  • Track 10-5Polymers for Stem Cell
  • Track 10-6Bioplastics
  • Track 10-7Polymers in All-Solid-State Batteries
  • Track 10-8Macromolecular structure and function
  • Track 10-9Biopolymers & Biomaterials
  • Track 10-10Synthesis and application of novel polymers for bio-/Nano-medicine
  • Track 10-11Supra-molecular polymers
  • Track 10-12Green polymer chemistry & biodegradable polymers

Pharmaceutical chemistry is the examination and improvement of new medications. It includes cures and solutions for ailments, systematic procedures, pharmacology, digestion, quality affirmation, and medicinal chemistry. Medicinal chemistry mixes engineered natural chemistry, biochemistry, and pharmacology. It centers around the bio-dynamic particles and pharmaceutical specialists. Medicinal chemistry includes breaking down existing medications and potential new medications. Medicinal chemistry can be viewed as a smaller field than pharmaceutical chemistry since its point of convergence is the chemistry of medications, from new prescriptions to illegal substances. Pharmaceutical chemistry, then again, examines medications and medication revelation, and it covers the way of taking medications to market.

  • Track 11-1Path-biochemistry of diseases
  • Track 11-2Target identification & validation
  • Track 11-3Drug Discovery
  • Track 11-4Medicinal Plants
  • Track 11-5Drug Designing Methodologies
  • Track 11-6Drug metabolism
  • Track 11-7Computer aided drug design
  • Track 11-8The SAR and QSAR approaches to drug Design
  • Track 11-9Pharmacokinetics and Pharmacodynamics
  • Track 11-10Pharmacological in vitro and in vivo investigations
  • Track 11-11Pharmaceutical Analysis

Theoretical Chemistry is a branch of science, which creates hypothetical speculations that are a piece of the hypothetical munititions stockpile of current science, for instance, the idea of compound holding, substance response, valence, the surface of potential vitality, sub-atomic orbitals, orbital cooperations, particle enactment. Present day theoretical chemistry might be generally separated into the investigation of concoction structure and the investigation of compound flow. Computational chemistry is a branch of chemistry that utilizations computer recreation to help with tackling compound issues. It utilizes techniques for hypothetical chemistry, joined into productive PC programs, to figure the structures and properties of atoms and solids. It is important in light of the fact that, aside from moderately late outcomes concerning the hydrogen atomic particle, the quantum many-body issue can't be fathomed logically, significantly less in shut shape. While computational outcomes typically supplement the data acquired by synthetic investigations, it can now and again foresee until now surreptitiously concoction marvels. It is generally utilized as a part of the outline of new medications and materials.

  • Track 12-1Theoretical Chemical Kinetics
  • Track 12-2Molecular Mechanics
  • Track 12-3Quantum Mechanics
  • Track 12-4Molecular Modelling
  • Track 12-5Mathematical Chemistry
  • Track 12-6Molecular Dynamics
  • Track 12-7Cheminformatics
  • Track 12-8Monte Carlo simulations
  • Track 12-9Theoretical Experimental Chemistry
  • Track 12-10Ab initio and Electronic Structure Methods
  • Track 12-11Statistical Mechanics
  • Track 12-12Chemical Dynamics

Food chemistry is the exploration of invention procedures and cooperation’s of all natural and non-organic segments of foods. The natural substances incorporate such things as meat, poultry, lettuce, brew, and drain as cases. It is like biochemistry in its principle parts, for example, starches, lipids, and protein, however it additionally incorporates ranges, for example, water, vitamins, minerals, catalysts, and food added substances, flavours, and hues. Food chemistry can be applied in the analysis of dietary content to monitor or improve nutrition, or the determination of levels of contaminants to ensure food safety. Chemical food analysis can also be used to compare food products that utilize different ingredients, or that are subjected to different processing methods. To demonstrate that specific sustenance items are helpful for wellbeing and to ponder the purposes behind this, there is arequirement of a methodological stage like what is utilized as a part of the pharmaceutical business. All around outlined eating routine intercession examines, new advancements and expository techniques will build the learning of atomic instruments influenced by particular sustenances and bioactive mixes. We have to break down the organization of the nourishment, explore the impacts of gastro-intestinal assimilation, distinguish mixes with bioactivity and concentrate their bioavailability and the instruments of activity at the molecular and cellular level.

  • Track 13-1Cereal Chemistry
  • Track 13-2Food Engineering
  • Track 13-3Agronomy
  • Track 13-4Bioresource Technology
  • Track 13-5Food Quality and Preference
  • Track 13-6Food Hydrocolloids
  • Track 13-7Food Processing
  • Track 13-8Food Science and Technology
  • Track 13-9Food and Chemical Toxicology
  • Track 13-10Food Bioactives, Nutrition and Health

Green science is the outline of compound items and procedures that lessen or dispose of the utilization or age of dangerous substances. Green Chemistry presents industries with incredible opportunity for growth and competitive advantage. This is because there is currently a significant shortage of green technologies: we estimate that only 10% of current technologies are environmentally benign; another 25% could be made benign relatively easily. The remaining 65% have yet to be invented! Green Chemistry also creates cost savings: when hazardous materials are removed from materials and processes, all hazard-related costs are also removed, such as those associated with handling, transportation, disposal, and compliance.Green Chemistry's emphasis is on the manageability of condition. Green science is a flat out way to deal with how items are made. Applies over the life cycle of a compound item, including its outline, produce, utilize, and extreme transfer. New and imaginative Design for Degradation are taken as an essential theme to talk about in exhibit time. Constant examination for Pollution Prevention; Analytical methadologies should be additionally created to take into consideration ongoing in-process observing and control before the development of risky substances in pharmaceutical enterprises. Inalienably Safer Chemistry for mischance avoidance.

  • Track 14-1Green Energy
  • Track 14-2Future Trends in Green Chemistry
  • Track 14-3Green Chemistry in Industries
  • Track 14-4Green Sustainable Agriculture
  • Track 14-5Green Chemistry Problems
  • Track 14-6Recycle Waste Content
  • Track 14-7Green Environmental Toxicology
  • Track 14-8Green Catalysis & Biocatalysis
  • Track 14-9Green Chemistry & Technology
  • Track 14-10Green Technologies in Pharmaceutical Industry
  • Track 14-11Green Technologies in Food Production & Processing

Nuclear Chemistry is the subfield of chemistry that is worried about changes in the core of components. These movements are the wellspring of radioactivity moreover, nuclear vitality. The nuclear properties of an iota depend upon the amount of protons and neutrons in the core of the particle. The amount of these particles in the core can make the core be shaky. The core can immediately exude particles and electromagnetic radiation to lessen vitality and turn out to be more steady. Exactly when this happens, the particle is addressed be radioactive. Radioactivity is portrayed as an unconstrained spread from the particle's core. The transmission of the core for the most part happens just in components with a nuclear number more common than 80. Once the core transmits the radiation, it has rotted and incited a substitute component or an isotope of a similar component that may not be radioactive. There are three essential sorts of radiation released by radioactive isotopes: alpha, beta and gamma beams. Alpha particles are the nuclear cores of the helium-4 molecule. Beta particles are electrons and are emanated when a neutron changes to a proton inside the core. Gamma beams are electromagnetic radiation of short wavelength and high essentialness, identified with x-beams. A customary and exhausting wellspring of alpha molecule outflow is the Po-210 radioisotope. The radioisotope of Sr-90 transmits beta particles, and Co-60 emanates gamma shafts.

  • Track 15-1Nuclear Fuel cycle
  • Track 15-2Nuclear Engineering
  • Track 15-3Nuclear Fusion and Fission
  • Track 15-4Radiobiology
  • Track 15-5Nuclear Medicine
  • Track 15-6Nuclear Safety and Security
  • Track 15-7Nuclear Physics
  • Track 15-8Nuclear Chain Reactions

A material having particles or constituents of Nano scale measurements, or one that is delivered by nanotechnology is a Nanomaterial. They are of sorts like carbon based, metal based, dendrimers and composites. Helpful applications can be seen in the instances of Nano-medicine, nano-biotechnology, green nanotechnology, vitality uses of nanotechnology, modern utilizations of nanotechnology, potential uses of carbon nanotubes and nanoart. The trademark properties of nano-materials show wide utilization in the current slanting innovation of material design.

  • Track 16-1Nano Materials and Nano Particles
  • Track 16-2Molecular Nanotechnology
  • Track 16-3Nano Electronics
  • Track 16-4Computational nanotechnology
  • Track 16-5Nanoparticles and quantum dots
  • Track 16-6Nanotechnology other applications
  • Track 16-7Preparation of magnetic nanoparticles and its bio-medical applications
  • Track 16-8Types of nano-materials
  • Track 16-9Nano-materials applications
  • Track 16-10Properties of nano-materials
  • Track 16-11Nano-materials synthesis
  • Track 16-12Nanotechnology in materials

Petroleum Chemistry is made of a blend of various hydrocarbons. The most productive hydrocarbons found in the chemistry of petroleum are alkanes, these are likewise some of the time knows as fanned or direct hydrocarbons. A critical level of the staying concoction compound is the comprised of sweet-smelling hydrocarbons and cycloalkanes. Moreover petroleum chemistry contains a few more perplexing hydrocarbons, for example, asphaltenes. Each topographical area and henceforth oil field will deliver a crude petroleum with an alternate mix of particles relying on the general level of every hydrocarbon it contains, this straightforwardly influences the colouration and thickness of the petroleum chemistry. The essential type of hydrocarbons in the chemistry of petroleum are the alkanes, which are likewise regularly named paraffins. These are named immersed hydrocarbons and the display either extended or straight particle chains.

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

Photochemistry is the investigation of the synthetic impacts of light. It is characterized as the compound response caused by assimilation of bright. This field of science is of monstrous significance as it is the premise of photosynthesis, vision, and the arrangement of vitamin D with sunlight.The assimilation of bright light by natural particles all the time prompts responses. In the most punctual days daylight was utilized while in more current circumstances bright lights are utilized. Photochemistry has turned out to be an extremely helpful manufactured device. Complex natural items can be acquired basically. The utility of photochemistry has emerged just by ethicalness of the accessible unthinking treatment; responses which seem improbable in ground-state understanding end up justifiable and open as far as electronic energized state thought.

  • Track 18-1Organic reactions involved in photochemistry
  • Track 18-2Electrocyclic reactions
  • Track 18-3Radical reactions
  • Track 18-4Photoisomerization
  • Track 18-5Norrish reaction
  • Track 18-64, 4-Diphenylcyclohexadienone rearrangement
  • Track 18-7Ï€-Ï€* reactivity
  • Track 18-8Parallel studies on multiplicity; the role of triplets
  • Track 18-9Common organic photochemical reactions

Clinical science is that field of clinical pathology required with examination of body liquids. It deals with the utilization of basic substance tests for various components of blood and waste item. After this, different strategies like electrophoresis were applied at the side of the use and live of catalyst activities, spectrophotometry, action, and bioassay. Pharmacology is furthermore a branch of science and medicines which undergoes the investigation of the antagonistic impacts of chemicals on living creatures.

  • Track 19-1Biologic Specimens
  • Track 19-2Common Clinical Chemistry tests
  • Track 19-3Clinical Examination of Blood Serum
  • Track 19-4Clinical Pathology
  • Track 19-5Clinical Examination of Urine
  • Track 19-6Clinical Examination of Other Fluids
  • Track 19-7Optical Methods
  • Track 19-8Clinical Biochemistry
  • Track 19-9Diagnostic Tests
  • Track 19-10Clinical and Hospital Pharmacy
  • Track 19-11Preanalytical/Analytical Errors
  • Track 19-12Therapeutic Drug Monitoring
  • Track 19-13Toxicology and Drugs of Abuse
  • Track 19-14Testing in Clinical Practice
  • Track 19-15Clinical Laboratory Medicine

Environmental chemistry is also called as Natural Chemistry. Natural Chemistry is a branch of environmental science in which the science of the Earth's air and that of different planets is examined. It is a multidisciplinary field of research and draws on natural science, material science, meteorology, oceanography, topography and volcanology and different controls. The synthesis of the Earth's environment changes as aftereffect of regular procedures, for example such as volcano emissions, lightning and bombardment by solar particles from corona. It has additionally been changed by human action and some of these progressions are unsafe to human wellbeing, harvests and biological communities.

  • Track 20-1Energy conversion
  • Track 20-2Protein engineering
  • Track 20-3Waste Management & Treatment
  • Track 20-4Environmental Sustainability and Development
  • Track 20-5Industrial and Water Pollution its Treatment
  • Track 20-6Renewable Energy Sources and Storages
  • Track 20-7Synthetic chemistry
  • Track 20-8Plant biochemistry
  • Track 20-9Chemical and biochemical techniques

Geochemistry is the science that uses the instruments and standards of science to clarify the components behind major geological systems for example, the Earth's covering and its seas. The domain of geochemistry reaches out past the Earth, enveloping the whole Solar System and has made imperative commitments to the comprehension of various procedures including mantle convection, the arrangement of planets and the starting points of stone and basalt. Geochemistry includes diverse perspectives like Cosmo science, Organic geochemistry, Photo geochemistry, Isotope geochemistry, Biogeochemistry, Aqueous geochemistry.

  • Track 21-1Isotope geochemistry
  • Track 21-2Cosmochemistry
  • Track 21-3Stable isotope Geochemistry
  • Track 21-4Light stable Isotope Geochemistry
  • Track 21-5Actinide/Radionuclide Geochemistry
  • Track 21-6Metallic Element Stable Isotope Geochemistry
  • Track 21-7Petroleum Geochemistry
  • Track 21-8Environmental Geochemistry
  • Track 21-9Organic geochemistry
  • Track 21-10Photogeochemistry

Forensic Chemistry is the use of science and its subfield, criminological toxicology, in a legitimate setting. A scientific physicist can aid the distinguishing proof of unknown materials found at a criminal scene. Authorities in this field have a wide cluster of techniques and instruments to help recognize unknown substances. It includes atomic absorption spectroscopy, thin layer chromatography, high- performance liquid chromatography, gas chromatography, gas chromatography, mass spectrometry etc.

  • Track 22-1Ballistic fingerprinting
  • Track 22-2Forensic toxicology
  • Track 22-3Forensic data analysis
  • Track 22-4Forensic arts
  • Track 22-5Bloodstain pattern analysis
  • Track 22-6Fingerprint analysis
  • Track 22-7Toxicology

Neurochemistry manages the procedures occurring in sensory system and nerve tissues. One of these procedures is Neurotransmission, wherein, the collaboration at the neurotransmitter happens with the assistance of neurotransmitters, for example, Dopamine, Acetylcholine, Norepinephrine, Glutamate, Serotonin, Gamma-aminobutyric corrosive (GABA), Endogenous opioids and so forth. The movement of particle channels helps neurotransmitter receptors to get the signs. This component is modified by the numerous medications, as a treatment procedure of neurological issue. The worldwide offers of medications to treat dynamic dementia with other neurological irregularities anticipated that would reach $537.2 million of every 2012 and $913.7 million by 2017, at a CAGR of 11.2% over the five-year gauge period. These are the chemicals brought into the Photo switchable ligands into particle channels stirrups the conceivable methods for various parts of neurotransmitters and receptors in the sensory system.

  • Track 23-1Chemical Neurobiology
  • Track 23-2Immuno neurochemistry
  • Track 23-3Neuroinflammation and Neuroimmunology
  • Track 23-4Neuroinflammation
  • Track 23-5Gene Regulation and Genetics
  • Track 23-6Nursing Skills
  • Track 23-7Molecular Mechanisms & Regulation of Nervous System
  • Track 23-8Molecular Neurobiology
  • Track 23-9Key Aspects of Neurochemistry
  • Track 23-10Neuropharmaceuticals and Therapeutics

Plasma chemistry is the branch of chemistry that reviews substance forms in low-temperature plasma, including the laws that oversee responses in plasma and the basics of plasma compound innovation. Plasmas are misleadingly delivered in plasmatrons at temperatures that range from 103 to 2 × 104 K and weights that range from 10– 6 to 104 environments. Communication between the reagents in plasma brings about the arrangement of last, or terminal, items; these items can be expelled from the plasma by fast cooling, or extinguishing. The fundamental element of all plasmochemical forms is that responsive particles are produced in essentially higher focuses than under normal states of synthetic responses. The responsive particles that are created in plasma are fit for affecting new sorts of substance responses; the particles incorporate energized atoms, electrons, iotas, nuclear and sub-atomic particles, and free radicals. For sure, some of these particles can just exist in the plasma state.

  • Track 24-1Plasma Ignition
  • Track 24-2Plasma Chemical Kinetics
  • Track 24-3Plasma Thermodynamics
  • Track 24-4Ion and Plasma Thrusters
  • Track 24-5Plasma Electrodynamics
  • Track 24-6Organic and Polymer Chemistry
  • Track 24-7Gas phase Inorganic Synthesis in Plasma
  • Track 24-8Plasma Chemistry in Lasers and light sources
  • Track 24-9Plasma Chemistry and Surface Processes
  • Track 24-10Electric Discharge in Plasma Chemistry
  • Track 24-11Elementary Plasma Chemical Reactions