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This book consists of different electrochemical applications, majorly include, electrochemical determination of explosive nitro-aromatics, enhancing platforms for electrocatalysis, electrochemiluminescence-based applications as well as sensing applications. Followed by various applications of different electroceramic materials. Next chapter well focused on the applications of 2D materials especially in photo catalysis. Succeeding chapter elaborate mesoporous carbon nanomaterials in terms of green and clean energy production and storage. Later chapter comprises of electrochemical water splitting which is driven by electrocatalytic nanostructures, a convenient method to split water into hydrogen and oxygen to realize economical hydrogen production and recent progress and trends in the development of low-cost, earth-abundant transition metal-based electrocatalysts for cathodic 3 hydrogen evolution reaction (HER) with a particular emphasis on nanostructure ¿ catalytic activity relationships. Last chapter incorporate applications of multi-functional RGO based hybrid materials as high-performance supercapacitors.
Electrochemical methods for synthesizing different nanomaterials are elaborated. Structures, synthesis methods/ techniques of different electroceramics and ceramic oxides e.g. Pervoskite, Columbite and Spinel are described. Conductive boron-doped diamond electrodes with recent work on the fabrication are summarized in detail. It takes up important role as novel electrode materials with fascinating applications in electroanalysis, electrosynthesis and environment. Recent progress in electrochemical synthesis strategies for the fabrication of electrocatalysts for fuel cell reactions like methanol oxidation reaction, ethanol oxidation reaction and oxygen reduction reaction, electrode materials for Li-ion batteries and supercapacitors and various synthesis conditions adapted during the developed electrodeposition are thoroughly discussed. Electrochemical synthesis and electrophoretic deposition of perovskites and 2D transition metal dichalcogenides are also been added. Finally, the challenges involved in the current electrochemical synthesis strategies and future perspectives of electrochemically deposited materials for energy conversion and storage systems are conveniently presented.
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