Department Of Physics

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    Electrolyte for Energy Storage/Conversion (Li+, Na+, Mg2+) Devices Based on PVC and Their Associated Polymer: A Comprehensive Review
    (Springer, 2019) Arya, Anil; Sharma, Achchhe Lal
    Encouraged by the first report of ionic conductivity in 1973 and the consequent boom for the need of clean and green renewable energy resources, there has been a marked increase toward R&D of polymer electrolytes cum separator for energy storage devices. The most suitable alternative to the conventional energy storage devices is battery and it has the potential to fulfill the energy demand and could be used for storing energy produced from different alternative resources, i.e., wind/hydro/solar energy. Electrolyte is a key component of battery that plays a crucial role in its overall performance. The draft of the article is an attempt to present a coherent yet concise review of Li, Na, and Mg batteries using polymer electrolytes. The main topics given focus in this review are an introduction to properties shaping the polymer electrolytes, types of polymer electrolytes, and properties of constituents of polymer electrolytes (polymer host, salt, solvent, ionic liquid, plasticizer, nanofiller, nanoclay, nanorod, nanowire). The approaches to enhance the electrochemical properties are presented with a suitable ion transport mechanism. A special section is introduced to cover dendrite growth and strategies to suppress it. Important preparation methods and characterization techniques are introduced. The synopses of the experimental investigations are presented for ionic liquid/gel/composite polymer electrolytes. Finally, the future outlook highlights the further development for the next-generation energy storage devices.
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    Polymer electrolytes for lithium ion batteries: a critical study
    (Institute for Ionics, 2017) Arya, A.; Sharma, A. L.
    Polymer electrolytes (PEs) are an essential component being used in most energy storage/conversion devices. The present review article on a brief history, advantage, and their brief application of polymer electrolyte systems. It consists of a glimpse on liquid, gel, and solid polymer electrolyte and a contrast comparison concerning benefits/disadvantages among the three. The article started with a brief introduction of polymer electrolytes followed by their varieties and extreme uses. The role of host polymer matrix by taking numerous examples of polymer electrolyte published by the different renowned group of the concerned field has been explored. The criteria for selection of appropriate host polymer, salt, inorganic filler/clay, and aprotic solvents to be used in polymer electrolyte have been discussed in detail. The mostly used polymer, salt, solvents, and inorganic filler/clay list has been prepared in order to keep the data bank at one place for new researchers. This article comprises different methodologies for the preparation of polymer electrolyte films. The different self-proposed mechanisms (like VTF, WLF, free volume theory, dispersed/intercalated mechanisms, etc.) have been discussed in order to explain the lithium ion conduction in polymer electrolyte systems. A numerous characterization techniques and their resulting analysis have been summarized from the different published reports at one place for better awareness of the scientific community/reader of the area. ? 2017, Springer-Verlag Berlin Heidelberg.