Abstract

Abstract Covalent organic frameworks (COFs) are promising platforms for understanding photocatalytic CO 2 reduction processes owing to their predesignable structures and tailor‐made functions. Herein, a nickel‐modified COF composed of N ‐acylhydrazone‐linked electron‐donor and electron‐acceptor dyads (H‐COF‐Ni) is reported. H‐COF‐Ni generates 5694 µ mol g −1 of CO with 96% selectivity over H 2 evolution in 2 h under visible light irradiation, which greatly outperforms that of typical imine‐linked counterpart. Experimental and theoretical results have demonstrated that metal active sites in host frameworks are deprived by 2,2′‐bipyridine additive to form new catalytic active species, the separation and transfer process of the photogenerated charge carriers are not main reason for their activity difference. The linkage‐dependent activation of CO 2 molecules on Ni centers is responsible for high photocatalytic efficiency. This study provides new protocols to improve CO 2 photoreduction performance through the modification of linkage microenvironments.