Proton battery a overview of proton battery with good basics
sarathykumaresh715
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Oct 14, 2025
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a overview of proton battery with good basics
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NANOTECHNOLOGY Research Scholar: M.TAMILSELVI Department of Physics, HRK Institute of Science and Technology, Asalapakkam , Namakkal – 26. Supervisor: Prof. K. Jaganmoorthy Assistant Professor, Department of Physics, HRK Institute of Science and Technology, Asalapakkam , Namakkal – 26.
OUTLINE INTRODUCTON NANOTECHNOLOGY PROTON BATTERY LITRATURE SURVEY MOTIVATION OBJECTIVES PROPOSED WORK
WHAT IS NANOTECHNOLOGY ? Nanoscience is the study of structures and molecules on the scales of nanometers ranging between 1 and 100 nm, and the technology that utilizes it in practical applications such as devices etc. is called nanotechnology. Many techniques have been developed to synthesize and fabrication nanostructure materials with controlled shape, size, dimensionality and structure.
SYNTHESIS OF NANOPARTICLE
WHAT IS ENERGY STORAGE? Energy storage means capturing energy produced at one time for use at a later time, helping to balance supply and demand or store excess power for future needs. There are many types of energy storage,
IMPOTANT OF ENERGY STORAGE SYSTEM High specific energy and high load capabilities with power cells Good service life, reliability, power, availability, safety and costs High capacity, low internal resistance, good coulombic efficiency Long cycle life and extended shelf-life; maintenance-free Simple charge algorithm and reasonably short charge times Good low-temperature performance
MOTIVATION Based on the literature survey, the field of proton batteries when polymer-based electrolytes and biopolymer composites are the key scope of research . PVDF-based polymer electrolytes show good electrochemical stability and film-forming ability and it is highly suitable for proton battery applications. It can be further enhanced if we can optimize it using suitable proton-conducting salts . It can act as an excellent proton donor salt as it provides mobile protons and improves ionic conductivity of the polymer matrix.
CONDUCTING POLYMER A polymer ( Greek word poly-, "many" + - mer , "part") is a large molecule, or macromolecule, composed of many repeated sub units. Due to their broad range of properties, both synthetic and natural polymers play essential roles in everyday life. Polymers have both physical and chemical properties. The physical and chemical properties of polymers include tensile strength, durability, viscoelasticity, reactivity, melting point, conductivity, and so on. These properties enable the varied uses of polymers such as plastic, rubber, machine parts, and so on.
APPLICATIONS RENEWABLE ENERGY STORAGE ELECTRICAL VEHICLES PORTABLE ELECTRANICS BACKUP POWER SYSTEMS GRID ENERGY STORAGE MILITARY EQUIPMENT
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