The Construction of p/n-Cu2O Heterojunction Catalysts for Efficient CO2 Photoelectric Reduction
Qianqian Zhou, Yanxin Chen, Hao-Yan Shi, Rui Chen, Ming-Hao Ji, K. Li, Hailong Wang, Xia Jiang, Can‐Zhong Lu
Abstract
Cu2O is a p-type direct bandgap semiconductor with a band gap of 2~2.2 eV, which has excellent visible light absorption and utilization. However, slow charge transfer and poor stability hinder its practical application. In this paper, a facile electrodeposition approach successfully synthesized the heterostructure of p-Cu2O and n-Cu2O. The protective layer of n-Cu2O on the surface of p-Cu2O nanoparticles forms a p/n heterojunction. Due to the p/n heterojunction, the PEC performance of p/n-Cu2O is enhanced significantly. The charge separation efficiency of photogenerated electron/hole pairs in p/n-Cu2O is greatly improved. Therefore, p/n-Cu2O shows superior photoelectrochemical (PEC) CO2 reduction reaction (CO2RR) efficiency when used as a photocathode.