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Article Abstract
Copper-coordinated catalysts are reported to be effective for electrocatalytic CO reduction reaction (CO RR) to C products but suffer from low selectivity. Herein a strategy was developed to tune the d-band structure of Cu via coordinating with aromatic ligands to form Cu-based conjugated polymers for CO RR to C chemicals. The catalysts derived from copper chloride coordinating with tetraminobenzoquinone (TABQ) and with 1,2,4,5-benzenetetramine possessed high-density and compact Cu single-atom sites and displayed high activity for CO RR to C products. Especially, Cu-TABQ exhibited a maximum C faradaic efficiency of 63.2 % with a current density of 423 mA cm at -1.17 V (vs. reversible hydrogen electrode). Density functional theory calculations indicated that the TABQ linker possessing C=O groups significantly widened the d-band of coordinated Cu , which facilitated binding of *CO intermediate on the catalyst and thus enhanced C-C coupling. This work provides mechanistic insight into the Cu -coordinated polymers for CO RR with high selectivity toward C products.
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