Two dimensional ZnO/AlN composites used for photocatalytic water-splitting: a hybrid density functional study

Guangzhao Wang; Yumo Li; Ling Zhang; Junli Chang; Yadong Li; Liangping Xia; Shuyuan Xiao; Suihu Dang; Chunxia Li

doi:10.1039/c9ra06104e

Two dimensional ZnO/AlN composites used for photocatalytic water-splitting: a hybrid density functional study

RSC Adv. 2019 Nov 7;9(62):36234-36239. doi: 10.1039/c9ra06104e. eCollection 2019 Nov 4.

Authors

Guangzhao Wang¹, Yumo Li¹, Ling Zhang¹, Junli Chang², Yadong Li¹, Liangping Xia¹, Shuyuan Xiao³, Suihu Dang¹, Chunxia Li¹

Affiliations

¹ School of Electronic Information Engineering, Key Laboratory of Extraordinary Bond Engineering and Advanced Materials Technology of Chongqing, Yangtze Normal University Chongqing 408100 China wangyan6930@126.com wangyan6930@yznu.edu.cn.
² School of Physical Science and Technology, Southwest University Chongqing 400715 China.
³ Institute for Advanced Study, Nanchang University Nanchang 330031 China.

Abstract

Using hybrid density functionals, we study the interfacial interactions and electronic properties of ZnO/AlN composites with the consideration of rotation angles and biaxial strains in order to enhance the photocatalytic performance for water-splitting. The different rotated composites, and -2% strained, original, and 2% strained ZnO/AlN composites can be easily prepared owing to the negative interface formation energies. The bandgaps and band alignments of ZnO/AlN composites can be significantly tuned by biaxial strains. Particularly, the appropriate bandgap for visible light absorption, proper band alignment for spontaneous water-splitting, and the formed electric field promoting photoinduced carrier separation make the 2% strained ZnO/AlN composite a potential candidate for photocatalytic water-splitting. This work shines some light on designing two dimensional heterostructured photocatalysts.