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.

Thermochemistry is the investigation of the warmth vitality related with substance responses as well as physical changes. A response may discharge or assimilate vitality, and a stage change may do likewise, for example, in liquefying and bubbling. Thermochemistry concentrates on these vitality changes, especially on the framework's vitality trade with its environment. Thermochemistry is helpful in foreseeing reactant and item amounts over the span of a given response. In mix with entropy conclusions, it is likewise used to foresee whether a response is unconstrained or non-unconstrained. It is a branch of thermodynamics and is utilized by an extensive variety of researchers and architects.

  • Track 1-1Calorimetry
  • Track 1-2Systems
  • Track 1-3Processes
  • Track 1-4Entropy

Biophysical science is a physical science that uses the ideas of material science and physical science for the investigation of natural frameworks. iophysical scientific experts utilize different procedures utilized as a part of physical science to test the structure of natural frameworks. These strategies incorporate spectroscopic techniques, for example, atomic attractive reverberation (NMR) and X-beam diffraction.

  • Track 2-1Biological Systems
  • Track 2-2Supra-molecular Structure
  • Track 2-3Cell membranes
  • Track 2-4Substrate

Photochemistry is the branch of science worried about the compound  impacts of light. By and large, this term is utilized to depict a concoction response caused by assimilation of bright (wavelength from 100 to 400 nm), noticeable light (400 – 750 nm) or infrared radiation (750 – 2500 nm). In nature, photochemistry is of massive significance as it is the premise of photosynthesis, vision, and the arrangement of vitamin D with daylight and Photochemical responses continues uniquely in contrast to temperature-driven responses. Photochemical ways get to high vitality intermediates that can't be produced thermally, along these lines defeating extensive enactment boundaries in a brief timeframe, and permitting responses generally difficult to reach by warm procedures. 

  • Track 3-1Photo Degradation
  • Track 3-2Photosensitizer
  • Track 3-3Pericyclic Reaction
  • Track 3-4Functional Group

Theoretical science is a branch of science, which creates theoretical speculations that are a piece of the theoretical 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. Theoretical science joins standards and ideas normal to all branches of science. Inside the structure of theoretical science, there is a systematization of compound laws, standards and guidelines, their refinement and specifying, the development of a progression. 

  • Track 4-1Reaction Networks
  • Track 4-2Polymerization
  • Track 4-3Molecular Magnetism

Catalysis is the expansion in the rate of a synthetic response because of the cooperation of an extra substance called an catalyst, which isn't devoured in the catalyzed response and can keep on acting more than once. Frequently just small measures of impetus are required on a fundamental level. In catalyzed systems, the catalyst more often than not responds to frame an impermanent halfway which at that point recovers the first catalyst in a cyclic procedure.

  • Track 5-1Reaction energetics
  • Track 5-2Heterogeneous catalysts
  • Track 5-3Homogeneous catalysts
  • Track 5-4Enzymes and biocatalysts

In a synthetic response, chemical equilibrium is the state in which the two reactants and items are available in focuses which have no further inclination to change with time. The response rates of the forward and in reverse responses are for the most part not zero, but rather equivalent. In this way, there are no net changes in the groupings of the reactants and products. Such a state is known as dynamic equilibrium.

  • Track 6-1Addition of reactants or products
  • Track 6-2Concentration quotients
  • Track 6-3Multiple equilibria

The three dimensional shape or design of an atom is an imperative trademark. This shape is subject to the favored spatial introduction of covalent bonds  to molecules having at least two holding accomplices. Three dimensional setups are best seen with the guide of models.

  • Track 7-1Configuration
  • Track 7-2Isomers
  • Track 7-3Analysis of Molecular Formulas
  • Track 7-4Resonance
  • Track 7-5Atomic and Molecular Orbitals

Nuclear chemistry is the subfield of science managing radioactivity, atomic procedures, for example, atomic transmutation, and atomic properties. It is the science of radioactive components for example, the actinides, radium and radon together with the science related with hardware, (for example, atomic reactors) which are intended to perform atomic procedures. 

  • Track 8-1Radiation and nuclear reactions
  • Track 8-2Half-life
  • Track 8-3Stimulated nuclear reactions

Polymer science is a science subdiscipline that arrangements with the structures, substance union and properties of polymers, principally engineered polymers, for example, plastics and elastomers. Polymer science is identified with the more extensive field of polymer science, which additionally includes polymer material science and polymer building. 

  • Track 9-1Polymers and their properties
  • Track 9-2Biopolymers
  • Track 9-3Synthetic polymers

Electrochemistry is the branch of physical science that reviews the connection between power, as a quantifiable and quantitative marvel, and identifiable substance change, with either power considered a result of a specific concoction change or the other way around. These responses include electric charges moving amongst cathodes and an electrolyte (or ionic species in an answer). In this manner electrochemistry manages the communication between electrical vitality and compound change.

  • Track 10-1Electrochemical cells
  • Track 10-2Oxidation and reduction
  • Track 10-3Balancing redox reactions
  • Track 10-4Battery

The interdisciplinary field of materials science, likewise usually named materials science and building is the outline and disclosure of new materials, especially solids. Materials science still fuses components of material science, science, and building. In that capacity, the field was for some time considered by scholastic organizations as a sub-field of these related fields.

  • Track 11-1Fundamentals
  • Track 11-2Properties
  • Track 11-3Bonding
  • Track 11-4Kinetics
  • Track 11-5Kinetics

Nanotechnology is control of issue on a nuclear, atomic, and supramolecular scale. The most punctual, boundless depiction of nanotechnology alluded to the specific innovative objective of exactly controlling iotas and atoms for manufacture of macroscale items, likewise now alluded to as sub-atomic nanotechnology.

  • Track 12-1Nanomaterials
  • Track 12-2Tools and techniques
  • Track 12-3Bottom-up approaches
  • Track 12-4Top-down approaches
  • Track 12-5Functional approaches
  • Track 12-6Biomimetic approaches

Pharmaceutical science is the investigation of medications, and it includes tranquilize improvement. This incorporates sedate revelation, conveyance, assimilation, digestion, and that's just the beginning. There are components of biomedical examination, pharmacology, pharmacokinetics, and pharmacodynamics. Pharmaceutical science work is generally done in a lab setting. Pharmaceutical science prompts professions in tranquilize improvement, biotechnology, pharmaceutical organizations, investigate offices.

  • Track 13-1Design of Safer Chemicals and Products
  • Track 13-2Medicinal Radiocompounds
  • Track 13-3Modelling and designing

Computational science is normally utilized when a numerical strategy is adequately very much built up that it can be robotized for usage on a PC. Exactness can simply be enhanced with more prominent computational cost. So computational science includes precision, Cheminformatics, and so forth.

  • Track 14-1Cheminformatics
  • Track 14-2Combinatorial Chemistry
  • Track 14-3Computational Methods
  • Track 14-4Computational Accuracy
  • Track 14-5Molecular mechanics
  • Track 14-6Chemical dynamics
  • Track 14-7Theoretical chemistry
  • Track 14-8Interpreting molecular wave functions

Physical Chemistry is the study of macroscopic atomic subatomic, and particulate phenomena in chemical systems in terms of the principles, practices, and concepts of physics such as motion, energy, force, time, thermodynamics, quantum chemistry, statistical mechanics, analytical dynamics and chemical equilibrium, blends the principles of physics and chemistry to study the physical characteristics, or properties, of molecules. By understanding these properties, we learn more about the way in which molecules are put together, as well as how the actual structure of a chemical is impacted by these properties.

  • Track 15-1Intermolecular Forces
  • Track 15-2Reaction Kinetics
  • Track 15-3Surface Science

Synthetic energy incorporates examinations of how unique exploratory conditions can impact the speed of a compound response and yield data about the response's instrument and change states, and in addition the development of scientific models that can portray the qualities of a concoction response. For any substance response, scientific experts endeavor to discover the common sense of a synthetic response which can be anticipated by thermodynamics, degree to which a response will proceed can be resolved from compound balance and speed of a response.

  • Track 16-1Nature of the reactants
  • Track 16-2Physical state
  • Track 16-3Surface area of solids
  • Track 16-4Concentration

Radiation science is a subdivision of atomic science which is the investigation of the compound impacts of radiation on issue; this is altogether different from radiochemistry as no radioactivity should be available in the material which is as a rule synthetically changed by the radiation. Radiation science includes the investigation of atomic responses. There are clear contrasts between a "concoction response," and an "atomic response:" a substance response includes electrons of a molecule (which circle the core), while an atomic response includes a response inside the core of an iota.

  • Track 17-1Radicals
  • Track 17-2Chain Reaction
  • Track 17-3Radioactive Decay
  • Track 17-4Nuclear Reaction

Femto science is the zone of physical science that reviews compound responses on to a great degree short timescales (around 10−15 seconds or one femtosecond, thus the name) to examine the very demonstration of particles inside atoms (reactants) revamping themselves to shape new atoms (items). Utilization of femto science in natural examinations has likewise illustrated the conformational flow of stem-circle RNA structures. 

  • Track 18-1Chemical Reactions
  • Track 18-2Single-molecule Trajectory
  • Track 18-3Intermediate Products
  • Track 18-4Femto Therapy

Geochemistry is the science that uses the instruments and standards of science to clarify the components behind major land frameworks. Geo science is the branch of Earth Science that applies synthetic standards to extend a comprehension of the Earth framework and frameworks of different planets. Geochemists consider Earth made out of discrete circles rocks, liquids, gases and science that trade matter and vitality over a scope of time scales.

  • Track 19-1Terrestrial Planets
  • Track 19-2Meteorites
  • Track 19-3Giant Planets
  • Track 19-4Mineral Constitution

Astro science is the investigation of the wealth and responses of particles in the Universe, and their connection with radiation. The teach is a cover of stargazing and science. "Astro science" might be connected to both the Solar System and the interstellar medium. The arrangement, nuclear and synthetic creation, advancement and destiny of sub-atomic gas mists is of uncommon intrigue, since it is from these mists that galaxies frame.

  • Track 20-1Interstellar Medium
  • Track 20-2Interstellar Space
  • Track 20-3Molecular gas clouds
  • Track 20-4Cosmo Chemistry

Quantum science is a branch of science whose essential concentration is the utilization of quantum mechanics in physical models and examinations of compound frameworks. It is additionally called sub-atomic quantum mechanics. Exploratory quantum physicists depend vigorously on spectroscopy, through which data in regards to the quantization of vitality on a sub-atomic scale can be acquired. Normal strategies are infra-red (IR) spectroscopy, Nuclear Magnetic Resonance (NMR) spectroscopy, and filtering test microscopy. In responses, quantum science thinks about the ground condition of individual iotas and atoms, the energized states, and the change expresses that happen amid substance responses.

  • Track 21-1Quantum Mechanics
  • Track 21-2Quantization
  • Track 21-3Wave Model
  • Track 21-4Molecular Orbital

Strong state science, additionally some of the time alluded to as materials science, is the investigation of the amalgamation, structure, and properties of strong stage materials, especially, however not really solely of, non-sub-atomic solids. It in this way has a solid cover with strong state physical science, mineralogy, crystallography, pottery, metallurgy, thermodynamics, materials science and gadgets with an emphasis on the amalgamation of novel materials and their portrayal. Strong state Chemistry keeps on assuming an enhancing part in a bewildering exhibit of orders. 

  • Track 22-1Materials Chemistry
  • Track 22-2Gas reactions
  • Track 22-3Melt methods
  • Track 22-4Solution Methods

Spectroscopic information are frequently spoken to by a discharge range, a plot of the reaction of enthusiasm as a component of wavelength or recurrence. Spectroscopy is the investigation of how light connects with issue. We can utilize spectroscopy to decide the structure and utilitarian gatherings in natural mixes. We will find out about how to utilize IR, UV/Vis, and NMR spectroscopy.

  • Track 23-1Nature of the Interaction
  • Track 23-2Type of Radiative Energy
  • Track 23-3Type of Material
  • Track 23-4Crystals

Surface Chemistry is the investigation of physical and compound wonders that happen at the interface of two stages, including solid– fluid interfaces, solid– gas interfaces, solid– vacuum interfaces, and liquid– gas interfaces. It incorporates the fields of surface science and surface material science .Some related viable applications are classed as surface building. The science incorporates ideas, for example, heterogeneous catalysis, semiconductor gadget creation, power devices, self-collected monolayers, and cements. Surface science is firmly identified with interface and colloid science Interfacial science and material science are basic subjects for both.

  • Track 24-1Catalysis
  • Track 24-2Electrochemistry
  • Track 24-3Geochemistry
  • Track 24-4Surface Physics

Physical Organic Chemistry alludes to a teach of natural science that spotlights on the connection between concoction structures and reactivity, specifically, applying test devices of physical science to the investigation of natural particles. Particular central purposes of study incorporate the rates of natural responses, the relative compound strong qualities of the beginning materials, receptive intermediates, progress states, and results of synthetic responses, and non-covalent parts of solvation and sub-atomic cooperations that impact substance reactivity.

  • Track 25-1Reactive Intermediates
  • Track 25-2Organic reactions
  • Track 25-3Chemical Stabilities
  • Track 25-4Free Energy of Activation