International Journal of Analytical and Applied Chemistry

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Electrodes at commercial forefronts describe self sustenance approaches in place of traditional cent percent dependence on fissile fuels. Application of solid oxide fuel cells in developed multi-electrode systems have employed in cases of power shortages at nano-material designs. Nano-materials have large surface area but introduced problems such as poor electrode packing densities, high electrolyte reactivity, and expensive synthesis procedures. Thermal stress assisted electrolytic decomposition has motivated use of high temperature resistant electrolytes. Preparations of proper nano-materials have produced variation in battery input and output performances. Uses of precious elements have suggested replacing cheaper materials to produce equivalent outputs. Potential energy shortages have suggested environmentally cleaner, more sustainable sources of energy for transportation applications. Key words Electrode, Battery, Commercial, Nano-materials, Electrolytes, Lithium ion, Zinc, Platinum/carbon, Transportation

Cite this Article: Bangshidhar Goswami, Seema Sinha, Thakur Pranab Kumar Gautam, Sailendra Kumar Prasad, Jeevan Kumar. Electrodes at Commercial Forefronts. International Journal of Analytical and Applied Chemistry. 2019; 1 (1): 15–28p.