Defect‐Rich Heterostructured Bi‐Based Catalysts for Efficient CO ₂ Reduction Reaction to Formate in Wide Operable Windows

Electrocatalytic reduction of CO2 to formate is believed to be one of the most promising technologies for producing clean fuels and valuable chemicals and for tackling the global warming problem. Herein, we present a novel synthesis strategy for Bi-based catalyst in CO2RR. With the addition of acetic acid into the mother solution, heterostructured Bi/Bi2O3 nanoplates with abundant O-vacancies (Bi/Bi2O3-Ov) and tailored coordination environments of the Bi ions were successfully synthesized, which exhibit excellent catalytic activity for CO2RR and high selectivity for formate generation with wide operable windows of pH (neutral to alkaline) and potential. In particular, the FE (HCOOH) reached ≥ 90% in a wide potential range of -0.7∽ -1.35 V vs RHE in neutral media, which dwarf most of the state-of-the-art Bi based catalysts for CO2RR reported to date. Combined experimental and theoretical results show that the abundant O-vacancies created frustrated Lewis pairs at the heterointerfaces with favorable adsorption characteristics, thereby facilitating the CO2RR process. This work opens up a new approach to promoting the catalytic activity and selectivity of Bi-based materials for CO2RR by combining coordination and heterointerface engineering. This article is protected by copyright. All rights reserved.