Abstract
Research in the area of electrocatalytic reduction of CO2 to value-added products has grown briskly in the past few decades. This is due to the increasing amount of CO2 in the atmosphere and a steady rise in global fuel demand. Serious efforts are urgently needed to minimize to CO2 emission and enhance sources of global energy demand. Electrochemical reduction (ECR) of CO2 is considered to be the best solution which not only reduces the increasing CO2 accumulation but also produces valuable fuels and chemicals. Sluggish kinetics, high over potential, low selectivity, low durability and competitive side reactions are the focal issues, to overcome these problems an efficient electrocatalyst is needed. Here in this mini review we had tried to discuss the fundamental factors that greatly influences catalytic activity of the catalyst in the light of updated experimental and computational data, which include size, crystal plane, grain boundary, metal metal-oxide interface and finally a brief note on metal free catalyst and future perspective of ECR of CO2.
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