期刊
JOURNAL OF COLLOID AND INTERFACE SCIENCE
卷 650, 期 -, 页码 266-274出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcis.2023.06.185
关键词
Photocatalytic hydrogen production; Cation exchange; Controllable synthesis; Anisotropic heterojunction
In this study, a facile, cost-effective and spatially-selective cation exchange synthesis approach was developed to construct a J-type heterojunction of ZnIn2S4@CdIn2S4 (J-ZIS@CIS), with controlled crystal structure of the heterojunction component CIS. This approach provides a simple and controllable strategy for constructing oriented anisotropic heterojunctions that were previously inaccessible.
Construction of semiconductor heterojunctions which promote the separation and transport of photogenerated carriers is an effective strategy for improving photocatalytic reaction efficiency. Based on the anisotropic electrical conductivity of layered ZnIn2S4 (ZIS) photocatalyst, an efficient heterojunction should be constructed along the layer plane of ZIS, that is, a J type heterojunction. However, achieving controllable synthesis of the oriented heterojunction of ZIS faces challenges. Herein, we develop a facile, cost-effective and spatially-selective cation exchange synthesis approach to construct J type ZnIn2S4@CdIn2S4 (J-ZIS@CIS) heterojunction using a flowerlike hexagonal ZIS as the parent material. The developed synthesis approach can also control crystal structure of the heterojunction component CIS. This work presents a facile and controllable synthesis strategy to construct oriented anisotropic heterojunctions that are otherwise inaccessible. The as-prepared J-ZIS@CIS heterojunction displays a greatly enhanced photocatalytic hydrogen evolution activity with a rate of 183 & mu;mol h-1, 2.77 times higher than that of pristine ZIS. Furthermore, the possible photocatalytic reaction mechanism is presented for the heterojunction.
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