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.

Electro-analytical techniques are a class of scientific science, which concentrate an analyte by adjusting the potential (volts) as well as power (amperes) in an electrochemical cell containing the analyte. The three fundamental divisions are potentiometry (the distinction in terminal possibilities is aligned), coulometry (the cell current measured with respect to time), and voltammetry (the cell's current is measured while firmly modifying the cell's potential). 

  • Track 1-1Sensors
  • Track 1-2Electro-analytical Sensor Technology
  • Track 1-3Electrochemical sensing principles
  • Track 1-4Potentiometric Sensors
  • Track 1-5Volta metric Sensors
  • Track 1-6Conduct metric and Impedimetric Sensors
  • Track 1-7Biosensors
  • Track 1-8Sensor Science
  • Track 1-9Electrochemistry instrumental analysis
  • Track 1-10Nano-materials synthesis
  • Track 1-11Clinical Laboratory Medicine

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

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

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 4-1Preparation of Chemical formulations
  • Track 4-2Mechanism of action of materials in formulations
  • Track 4-3Altering the action by using as excipients in formulations
  • Track 4-4Treatment of current diseases using prototype materials
  • Track 4-5Effects of materials in formulations
  • Track 4-6Electronic and photonic materials
  • Track 4-7Catalytic materials for energy
  • Track 4-8Mining and metallurgy
  • Track 4-9Computational materials science
  • Track 4-10Optimization of materials and structures
  • Track 4-11Electrical chemistry

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 5-1Organic reaction synthesis
  • Track 5-2Retrosynthetic analysis
  • Track 5-3Flow chemistry
  • Track 5-4Heterocyclic compounds
  • Track 5-5Biochemistry & Natural Products
  • Track 5-6Organometallic compounds
  • Track 5-7Photochemistry and Pericyclic reactions
  • Track 5-8Microwave synthesis
  • Track 5-9Fullerenes
  • Track 5-10Stereochemistry

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.

  • Track 6-1Cereal Chemistry
  • Track 6-2Food Engineering
  • Track 6-3Bioresource Technology
  • Track 6-4Food Quality and Preference
  • Track 6-5Food Hydrocolloids
  • Track 6-6Food and Chemical Toxicology
  • Track 6-7Trends in Food Science & Technology
  • Track 6-8Innovative Food Science & Emerging Technologies

Pharmaceutical chemistry is the study and development of new drugs. It involves cures and remedies for diseases, analytical techniques, pharmacology, metabolism, quality assurance, and drug chemistry. Medicinal chemistry blends synthetic organic chemistry, biochemistry, and pharmacology. It focuses on the bio-active molecules and pharmaceutical agents. Medicinal chemistry involves analysing existing drugs and potential new drugs. Medicinal chemistry can be considered a narrower field than pharmaceutical chemistry because its focal point is the chemistry of drugs, from new medicines to illicit substances. Pharmaceutical chemistry, on the other hand, studies drugs and drug discovery, and it covers the process of taking drugs to market.

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

Analytical chemistry is the study of the separation, identification, quality control and quality assurance of the chemical parts of natural and artificial materials. The maintenance of a desired level of quality in an exceedingly service or product, particularly by means that of attention to each stage of the method of delivery or production. Bio analytical Chemistry could be a sub-division of Analytical Chemistry that covers the measuring of medicine, Ion sensors, Proteins and DNA in unnatural samples or concentrations. 

  • Track 8-1Advances in separation methods
  • Track 8-2Chromatographic and electrophoretic methods
  • Track 8-3Quantitative analysis
  • Track 8-4Wet chemical methods
  • Track 8-5Flow analysis
  • Track 8-6Advances in electro-analysis
  • Track 8-7Chemo-metrics

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 spectroscocpy, thin layer chromatography, high-performance liquid chromatography, gas chromatography-mass spectrometry etc. 

  • Track 9-1Toxicology
  • Track 9-2Ballistic fingerprinting
  • Track 9-3Forensic toxicology
  • Track 9-4Forensic data analysis
  • Track 9-5Forensic arts
  • Track 9-6Bloodstain pattern analysis
  • Track 9-7Fingerprint analysis

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 10-1Isotope geochemistry
  • Track 10-2Cosmochemistry
  • Track 10-3Organic geochemistry
  • Track 10-4Photogeochemistry

The investigation of Polymer science or polymer sciences starts with understanding the strategies in which these materials are combined. Polymer synthesis is a complex methodology and can be done in different ways. Option polymerization portrays the strategy where monomers are added one by one to a dynamic site on the developing chain. Polymers are enormous macromolecules made out of rehashing auxiliary units. While polymer in prominent use proposes plastic, the term really alludes to a huge class of normal and engineered materials. Because of the remarkable scope of properties, polymer sciences have come to play a very important role- from plastics and elastomers from one viewpoint to common biopolymers, for example, DNA and proteins.

  • Track 11-1Polymerization methods
  • Track 11-2Polymerization mechanisms and kinetics
  • Track 11-3Characterization of polymers
  • Track 11-4Macromolecular structure and function
  • Track 11-5Synthesis and application of novel polymers for bio-/Nano-medicine
  • Track 11-6Supra-molecular polymers
  • Track 11-7Green polymer chemistry & biodegradable polymers

Physical Chemistry is the investigation 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 whereas theoretical Chemistry is the examination of the auxiliary and dynamic properties of atoms and sub-atomic materials utilizing the devices of quantum science, harmony and nonequilibrium measurable mechanics and elements.

  • Track 12-1Chemical thermodynamics
  • Track 12-2Physical chemistry of macro molecules
  • Track 12-3Chemical kinetics
  • Track 12-4Radio chemistry
  • Track 12-5Electrochemistry
  • Track 12-6Solid-state chemistry
  • Track 12-7Surface science
  • Track 12-8Spectroscopy
  • Track 12-9Quantum chemistry

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 13-1Waste Management & Treatment
  • Track 13-2Environmental Sustainability and Development
  • Track 13-3Industrial and Water Pollution its Treatment
  • Track 13-4Renewable Energy Sources and Storages

HPLC is an extremely basic technique for metabolomics investigation. With the innovation of electrospray ionization, HPLC is coupled to mass spectroscopy. HPLC has brought down chromatographic determination, requires no induction for polar atoms and isolates particles in the fluid stage. Applicable to proteomics, because of the mind boggling structure and nature of proteins, instrumentation and strategies improvement for test tidy up, pre-focus, fractionation, chromatographic division and discovery turns into a prompt prerequisite for the recognizable proof of peptides and proteins.

  • Track 14-1Biopharmaceutical data screening
  • Track 14-2Clinical Diagnosis
  • Track 14-3Clinical Diagnosis
  • Track 14-4Clinical Diagnosis
  • Track 14-5Water and Environmental Application
  • Track 14-6Food Technology
  • Track 14-7Nano Technology
  • Track 14-8Proteomics
  • Track 14-9Lipidomics