Affiliation:
1. International Joint Research Center for Advanced Energy Materials of Yunnan Province Yunnan Key Laboratory of Carbon Neutrality and Green Low‐carbon Technologies School of Materials and Energy Yunnan University Kunming 650091 China
Abstract
AbstractSolar‐driven reduction of CO2 emissions into high‐value‐added carbonaceous compounds has been recognized as a sustainable energy conversion way. The high‐efficiency charge separation and effective activation are the critical issues in the process. The local plasma effect of metal and the vacancy of semiconductors in the metal‐semiconductor heterostructure can solve this issue extensively. Herein, an oxygen vacancy photocatalyst containing uniform Ag nanoparticles (Ag‐20@Nb2O5‐x) is designed, which exhibits an excellent reduction performance and the CO yield can reach 59.13 µmol g−1 with high selectivity. The carrier migration is accelerated and the activation of CO2 is facilitated by the local surface plasmon effect and oxygen vacancy. Moreover, the photocatalytic CO2 reduction mechanism is revealed based on the density functional theory and in situ technology in detail. This work provides an in‐depth understanding of the design of more ingenious metal‐semiconductor photocatalysts to achieve more efficient charge transfer.
Funder
National Natural Science Foundation of China
Subject
Biomaterials,Biotechnology,General Materials Science,General Chemistry
Cited by
7 articles.
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