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.

Electrochemistry is the branch of science that arrangements with the synthetic activity of power and the generation of power by compound responses. In a world shy of vitality sources yet long on vitality utilize, electrochemistry is a basic part of the blend important to keep the world economies developing.Electrochemistry is the logical investigation of the compound species and responses that happen at the interface between an electron conductor and a particle conductor in which an electron exchange happens between the anode and the electrolyte in arrangement.

  • Track 1-1Basic concepts of Electrochemistry
  • Track 1-2Electrolysis
  • Track 1-3Voltaic cells
  • Track 1-4Alkaline cells
  • Track 1-5Secondary cells
  • Track 1-6Thermoelectric Effect
  • Track 1-7Photovoltic Effect
  • Track 1-8Piezoelectric effect
  • Track 1-9Electrodeposition and Electroplating
  • Track 1-10Photovaltaics
  • Track 1-11Model Membranes

Electrochemistry Interfaces are now and again reffered to as energized interfaces implying that potential differences,charge densities,dipole minutes and electric streams happens.Interfacial Electrochemistry is centered around interfacial wonders including superior altered cathodes and semiconductor nanomaterials, to grow new stages for (photo)electrocatalytic, vitality creation, (bio)sensing and defensive purposes.

  • Track 2-1Theory and Modeling
  • Track 2-2Double layer at blocking interfaces
  • Track 2-3Non-blocking metal electrodes
  • Track 2-4Componenets of Electrode Potential
  • Track 2-5Effects of surface films and surface rougness
  • Track 2-6Potentials of Zero charge
  • Track 2-7Capacity of Metal/Liquid Electrolyte Interphase
  • Track 2-8Develeopments in theory of electrified interface
  • Track 2-9Semi-electrolyte interface

An electromagnetic field  is a physical field delivered by electrically charged objects.It influences the conduct of charged questions in the region of the field. The electromagnetic field broadens inconclusively all through space and portrays the electromagnetic cooperation. It is one of the four principal strengths of nature the others are attractive energy, feeble association and solid cooperation.

  • Track 3-1Electrochemical system
  • Track 3-2Hydrogen evolution reaction
  • Track 3-3Uniform film modified electrodes
  • Track 3-4Heterogenous electron transfer
  • Track 3-5Self Exchange reactions
  • Track 3-6Thin film convolution technique
  • Track 3-7Confinement of paramagnetic ions
  • Track 3-8Nickel Electrodepositon
  • Track 3-9Electron tranfer reactions

Electrochemical vitality change is a field of vitality innovation worried about Electrochemical techniques for vitality transformation including energy units and photoelectrochemical. This field of innovation likewise incorporates electrical capacity gadgets and supercapacitors .Electrochemical cells and frameworks assume a key part in an extensive variety of industry divisions.

  • Track 4-1Electrohydrogenesis
  • Track 4-2Low temperature water electrolysis
  • Track 4-3High temperature water electrolysis
  • Track 4-4Polymer Electrolyte Fuel Cells
  • Track 4-5Polymer Electrolyte Electrolyzer cells
  • Track 4-6Electrochemical Double Layer Capicitors
  • Track 4-7Fuel cells and Electrolysers
  • Track 4-8Super Capacitors
  • Track 4-9Electrocatalysis
  • Track 4-10Electrode material and Science

Electrochemistry plays an important  role in many modern technologies and in particular in manufacturing process and products of molecular and microtechnology.

  • Track 5-1Development and Resolution
  • Track 5-2Advances in Molecular and Micro Electronics
  • Track 5-3Electrochemical Nanomaterials
  • Track 5-4Electrochemical Micromachining
  • Track 5-5Electron Tunneling Microscopy

Electrical Storage Systems (ESS) frameworks constitute a fundamental component in the improvement of reasonable vitality innovations. Electrical Storage produced from inexhaustible assets, for example, sun oriented radiation or wind gives incredible potential to meet our vitality needs in a feasible way. These sustainable power source advances produce power discontinuously and subsequently require proficient and solid electrical vitality stockpiling strategies.

  • Track 6-1Solid state Batteries
  • Track 6-2Flow Batteries
  • Track 6-3Flywheels
  • Track 6-4Compressed air energy storage
  • Track 6-5Thermal
  • Track 6-6Pumped Hydro Power
  • Track 6-7Liquid Metal and Ion Batteries
  • Track 6-8Lithium Ion Batteries
  • Track 6-9Primary and Secondary Batteries

Electrochemical are utilized in compound creation, metal completing, and vitality transformation. Electrochemical building incorporates the origination, plan, scale-up, and streamlining of such procedures. The biggest scale electrolytic procedures are aluminum and chlorine creation.It is the standards of thermodynamics, energy, liquid stream, and warmth and mass transport.

  • Track 7-1Fundamentals of Electrochemical
  • Track 7-2Electrosynthesis of Metals
  • Track 7-3Electrochemical Thermodynamics
  • Track 7-4Electrochemical Kinetics
  • Track 7-5ElectrochemicalReactor
  • Track 7-6Electroanalysis
  • Track 7-7Masstransfer Process
  • Track 7-8Materials for Synthesis

Bioelectrochemistry is a branch of electrochemistry and biophysical science worried about electrophysiological themes like cell electron-proton transport, cell film possibilities and terminal responses of redox proteins. Bioelectrochemistry is a worldwide diary. It gives to electrochemical standards in science and natural parts of electrochemistry.

  • Track 8-1Bioenergetics and signal transductions
  • Track 8-2Bioelectronics
  • Track 8-3Biomagnetism
  • Track 8-4Enzymatic Biofuel Cells
  • Track 8-5Biological Membrane and Membrane Mimies
  • Track 8-6Medical Applications

Electrochemical strategies for the treatment of natural and inorganic species, the treatment of pipe gasses and squander gasses, and film based electrochemical procedures.

  • Track 9-1Electrochemical water treatment methods
  • Track 9-2Emerging and Combined Electrochemical methods
  • Track 9-3Direct and Indirect Electrolysis
  • Track 9-4Industrial waste water treatment methods
  • Track 9-5Textile and Dyeing waste water methods

A sensor is an electronic segment, module, or subsystem whose reason for existing is to distinguish occasions or changes in its condition and send the data to different gadgets, every now and again a computer processor. A sensor is constantly utilized with different hardware, regardless of whether as basic as a light or as intricate as a computer.

  • Track 10-1Gas Sensors
  • Track 10-2Photentiometric Sensors
  • Track 10-3Electrochemical Biosensors
  • Track 10-4Catalytic Biosensors
  • Track 10-5Piezoelectric Sensors
  • Track 10-6Affinity Biosensors

Corrosion includes electrochemical responses of a metal with an oxidizing specialist displaythe earth. Erosion is of awesome financial significance.It confines the helpful life
time of metallic items and frequently displays a danger of mishaps and of contamination.
Consumption responses can be examined and comprehended by utilizing electrochemical techniques inconjunction with physical examination strategies for materials science. Erosion control is animportant issue for the feasible advancement

  • Track 11-1Scope and Economic Importance of Metal corrosion
  • Track 11-2Rate of Corrosion Reactions
  • Track 11-3Oxide films
  • Track 11-4Inhibition techniques
  • Track 11-5Corrosion Protection and Surface treatment
  • Track 11-6Environmental Induced cracking

Semiconductor electrochemistry manages numerous angles, extending from key semiconductor material science to complex impacts, for example, charge exchange forms at semiconductor-fluid surfaces or photoreactions at semiconductor particles. Its applications cover essential fields of present and future innovation including sun oriented vitality change or semiconductor gadget innovation, micromachining, and nanotechnology.

  • Track 12-1Basic semiconductor Physics
  • Track 12-2Semiconductor Electrolyte Junctions
  • Track 12-3Photoelectochemical Cells
  • Track 12-4Nanostructured Electrochemistry
  • Track 12-5Techniques in Semiconductor Electrochemistry
  • Track 12-6Chemically Modified Semiconductor
  • Track 12-7Charge Transfer Processes at Semiconductor-Liquid Interfaces
  • Track 12-8Electrochemical Decomposition of Semiconductors
  • Track 12-9Electron Transfer Processes Between Excited Molecules and Semiconductor Electrodes

 Electrochemistry is the use of electrochemical procedures to gauge the amount of a types of premium Electroanalytical methods are worried about the interchange amongst power and science, in particular, the estimations of electrical amounts, for example, present, potential, or charge and their relationship to compound parameters. Physical Electrochemistry manages the thermodynamics and energy (rates and components) of electrochemical procedures. This investigation includes the procedure of electrocatalysis and electroanalysis.

  • Track 13-1Principle of Electrochemical Investigation
  • Track 13-2Electrical Double layer
  • Track 13-3Electroanalysis
  • Track 13-4Potentiostat
  • Track 13-5Electrocapillary Effect
  • Track 13-6Mechanism
  • Track 13-7Advantages of Using Small Electrodes
  • Track 13-8Physiochemical Advantages
  • Track 13-9Localized Electrochemistry

Photoelectrochemistry is a subfield of concentrate inside physical science worried about the cooperation of light with electrochemical frameworks. Photoelectrochemical cells are sunlight based cells that create electrical vitality or hydrogen in a procedure like the electrolysis of water.

  • Track 14-1Multielectron Photoprocess
  • Track 14-2Photoluminescence
  • Track 14-3Optoelectronics
  • Track 14-4Photoexcitation
  • Track 14-5Photocatalysis
  • Track 14-6Heterogenus Photosynthesis
  • Track 14-7Optoelectronics
  • Track 14-8Electrochemical light emitting cells

Electron exchange responses play an essentialpart in material science, science, and science ingeneral, yet for electrochemistry they are particularly critical: Every electrochemical response contains no less than one electron exchange step. This is so can be effortlessly observed by considering the way that in an electrochemical circuit electrons stream towards one of thecathodes, and out of the other.

  • Track 15-1Theroies of Marcus and Hush
  • Track 15-2Gerischr’s Formulation
  • Track 15-3Energy of Reorganization
  • Track 15-4Quantum Theory
  • Track 15-5Beyond First Order Perturbation
  • Track 15-6Electron transfer through single Molecules
  • Track 15-7Non-adiabatic to Adiabatic Reactions

A natural film or biomembrane is an encasing or isolating layer that goes about as a specifically penetrable boundary inside living things. Organic layers, as eukaryotic cell layers, comprise of a phospholipid bilayer with installed, vital and fringe proteins utilized as a part of correspondence and transportation of chemicals and particles.

  • Track 16-1Scope of Biomembrane Electrochemistry
  • Track 16-2Interfaces and Membranes
  • Track 16-3Lipid Bilayer principles of Biomembranes
  • Track 16-4Classification of biomembranes
  • Track 16-5Expermental Membrane Systems
  • Track 16-6Photoelectric effects in Biomembranes

Ecological electrochemistry as an essential fieldof ecological designing which manages assurance and remediation of the Earth's assets. The current Earth's ecological status as influenced by various anthropogenic decays is introduced.Ecological electrochemistry can possibly add toi) contamination discovery,ii) remediation of dirtied air, water and soils,iii) reusing of metals (sparing of material assets) and option sources of vitality (hydrogen economy).

  • Track 17-1Present state of ecology
  • Track 17-2Photochemical smog
  • Track 17-3Global warming
  • Track 17-4Pollution Detection
  • Track 17-5Electroremediation
  • Track 17-6Metal Recycling
  • Track 17-7Adsorption Process
  • Track 17-8Electrochemical soil remediation
  • Track 17-9 Porous electrode technology
  • Track 17-10Surface and colloid chemistry in soil and aquatic environments
  • Track 17-11Environmental catalysis and pollution

Electrochemistry is unmistakably a critical segment of the innovation of numerous very diverseindustries. Additionally, the future for electrochemical innovation is splendid and there is a general desire that new utilizations of electrochemistry will end up plainly financial as the world reacts to the test of more costly vitality, of the need to grow new materials and to misuse diverse substance feedstocks and of the need to secure nature.

  • Track 18-1Chlorine-alkali industry
  • Track 18-2Inorganic electrolytic process
  • Track 18-3Extraction,refining and production of metal
  • Track 18-4Organic electrosynthesis
  • Track 18-5Metal finishing
  • Track 18-6Metals and materials processing
  • Track 18-7Industrial process streams

Metallurgical Electrochemistry includes metallurgical procedures that occur in some type of electrolytic cell.The most widely recognized sorts of Metallurgical forms are electrowinning and electro-refining. Electrowinning is an electrolysis procedure used to recuperate metals in fluid arrangement, for the most part as the consequence of a mineral having experienced at least one hydrometallurgical processes.The extent of electrometallurgy has critical cover with the zones of hydrometallurgy and pyrometallurgy. Also, electrochemical marvels assume an extensive part in numerous mineral handling and hydrometallurgical forms

  • Track 19-1Electrohydro Metullargy
  • Track 19-2Electrochemical Material science
  • Track 19-3Electrosynthesis of advances materials
  • Track 19-4Electrochemistry in Mineral and Metal processing
  • Track 19-5Modelling electrochemistry in metallurgical process

The application of electrochemistry science and building is featured, accentuating the use of electrochemistry to mechanical advancement and hone, and archiving properties and information of materials; plan factors, outline procedures, scale-up, financial aspects and testing of electrochemical gadgets and processes.electrochemistry to innovative improvement and practice.

  • Track 20-1Ecofriendly Technologies
  • Track 20-2Non-spontaneous chemical transformations
  • Track 20-3Electrochemical data analysis
  • Track 20-4Nano electrochemistry
  • Track 20-5Analytical elctrochemistry
  • Track 20-6Photobiology