摘要
Solar-driven photoreduction of CO_(2)to value-added fuels such as CO,CH_(4),and CH_(3)OH is a promising approach for alleviating the greenhouse effect.Transition-metal-complex molecular catalysts exhibit high catalytic performance for CO_(2)reduction owing to their tunable structures.In this study,we developed an efficient,inexpensive,and noble-metal-free photocatalytic CO_(2)reduction system containing an organic photosensitizer proflavine,a cobalt molecular catalyst,and an organic electron transfer relay emodin in DMF/H_(2)O(DMF:N,N-dimethylformamide)solvent.In the presence of water,a turnover number(TON)of 1333 was achieved for CO_(2)-to-CO conversion under ambient conditions and visible light irradiation,which is a 1.7-fold improvement over the system without emodin.In addition,a high selectivity of 90%was obtained for CO production.Absorption spectroscopy and cyclic voltammetry confirmed the crucial role of emodin in facilitating electron transfer between the photosensitizer and catalyst.We expect that our system will promote the development of an effective homogenous photocatalytic solar-fuel production technology.
基金
supported by the National Natural Science Foundation of China(22088102,21872016,and 22172018)
the Fundamental Research Funds for the Central Universities of China(DUT20LAB307)
