Construction of 2D/2D Heterogeneous of ZIF-8/SnS2 Composite as a Transfer of Band-Band System for Efficient Visible Photocatalytic Activity

Constructing two-dimensional (2D) heterostructured nanocomposites is an effective method to boost photo-generated carrier separation efficiently using layer material. In this work, a tightly coupled 2D/2D ZIF-8/SnS2 nanosheet heterogeneous composite was successfully prepared. Due to the good heterogeneous interface between 2D SnS2 and 2D ZIF-8 nanosheet, 2D/2D ZIF-8/SnS2 nanocomposites formed a large contact interface, leading to high efficient interfacial charge transfer efficiency and shortening the distance of charge transmission. As a result, the optimized SnS2/2D-ZIF-8 composites possess excellent photocatalytic properties and the rate of degradation toward MB under visible light for 100 minutes is 2.32 and 26.75 times than that of pure SnS2 and 2D-ZIF-8, respectively. This work offers an efficient way to design 2D/2D heterojunction composites as visible-light-driven catalyst for the photocatalytic application.