Surface chemical microenvironment engineering of catalysts by organic molecules for boosting electrocatalytic reaction

Electrocatalysis is a surface-sensitive process, in which the catalytic activity of electrocatalyst highly relates to the surface adsorption/desorption behaviors of the reactants/intermediates/products on the catalytically active sites. Surface chemical microenvironment engineering via organic molecules functionalization is a promising strategy to tune the electrocatalytic activity since it can well modify the electrode/electrolyte interface and alter the reaction pathways. In this review, we summarize the recent progress of surface microenvironment engineering of electrocatalysts induced by organic molecules functionalization, with the special focus on the organic molecule-assisted growth mechanism and unique electronic effect. More importantly, the applications of organic molecule functionalized catalysts in various electrocatalytic reactions are also systematically summarized, along with a deep discussion about the conclusion and perspective. This work will open a new avenue for the construction and modification of advanced electrocatalysts based on organic molecule-mediated interface engineering.