| Literature DB >> 33871997 |
Tian-Ci Zhuo1, Yang Song2, Gui-Lin Zhuang3, Lu-Ping Chang1, Shuang Yao1, Wei Zhang3, Ye Wang1, Ping Wang1, Wenbin Lin2, Tong-Bu Lu1, Zhi-Ming Zhang1.
Abstract
It is highly desirable to achieve solar-driven conversion of CO2 to valuable fuels with controlled selectivity. The existing catalysts are mainly explored for CO production but rarely for formate generation. Herein, highly selective photoreduction of CO2 to formate (99.7%) was achieved with a high yield of 3040 μmol g-1 in 10 h by hierarchical integration of photosensitizers and monometallic [bpy-Cu/ClX] (X = Cl or adenine) catalysts into a stable Eu-bpy metal-organic framework. However, replacing X with pyridine in [bpy-CuCl/X] significantly reduced formate production while increasing the CO yield to 960 μmol g-1. Systematic investigations revealed that the catalytic process is mediated by the H-bond synergy between Cu-bound X and CO2-derived species, and the selectivity of HCOO- can be controlled by simply replacing the coordination ligands. This work provides a molecularly precise structural model to provide mechanistic insights for selectivity control of CO2 photoreduction.Entities:
Year: 2021 PMID: 33871997 DOI: 10.1021/jacs.0c13048
Source DB: PubMed Journal: J Am Chem Soc ISSN: 0002-7863 Impact factor: 15.419