Design of lateral and vertical Bi4O5I2/BiOCl heterojunctions with different charge migration pathway for efficient photoredox activity
journal contribution
posted on 2024-11-17, 16:56authored byYi Zhong, Chenglin Wu, Daimei Chen, Jinzhong Zhang, Yanmei Feng, Kang Xu, Weichang Hao, Hao Ding, Guocheng Lv, Yi Du, Lianzhou Wang
As 2D heterojunction photocatalysts, lateral heterojunctions (LHs) formed based on chemical bonding generally exhibit much higher photocarrier separation efficiency than vertical heterojunctions (VHs) formed by van der Waals bonds. However, little is known about the different detailed interfacial structures and photocarrier separation mechanisms of the two heterojunctions. Herein, 2D BiOCl and Bi4O5I2 were selected as model building blocks to construct BiOCl/Bi4O5I2 VHs and LHs. The LHs with direct charge carrier transport channels show stronger interfacial electric field and higher charge transfer efficiency than the VHs. The photogenerated charge carrier migration pathway in the LHs follows a Z-scheme model, while the VHs fits a type II model. As a result, the BiOCl/Bi4O5I2 LHs exhibited higher redox performance than the VHs, which is 1.55, 1.56 and 2.1 times better for H2 production, Cr(VI) photoreduction and phenol photodegradation, respectively. This study demonstrates a new approach to constructing highly efficient facet-dependent 2D heterojunction photocatalysts.
Funding
National Natural Science Foundation of China (KZ201910853043)