兴奋剂
分解水
材料科学
纳米技术
光电子学
化学状态
化学工程
无机化学
化学
光催化
催化作用
X射线光电子能谱
生物化学
工程类
作者
Jun Ma,Shijian Zhang,Xiuxiu Huang,Wansheng Ruan,Xiang Li,Shuangshuang Huai,Xiaojie Song,Xiufang Wang
标识
DOI:10.1021/acsanm.5c01365
摘要
Here, a gentle cation-exchange-mediated approach is employed to immobilize Zn cations on the surface of SnS2 nanosheets for the Zn-SnS2 photoanode construction. Benefit from the redistribution of surface charges induced by the Zn–S configuration, the Zn-SnS2 photoanode catalyst possesses excellent separation ability of photogenerated electrons and holes. Therefore, the optimized Zn-SnS2 photoanode exhibits exceptional Photoelectrochemical (PEC) water splitting performance, achieving a photocurrent density of 1.28 mA·cm–2 at 1.23 VRHE with outstanding long-term stability, which is 4.13 times greater than that of SnS2 (0.31 mA·cm–2). Theoretical simulation calculation reveals that the introduction of Zn enhances adsorption of water molecules and intermediates, reduces the reaction energy barrier, and accelerates the kinetics of the PEC water oxidation reaction. This research offers a viable strategy to enhance photo electrocatalytic efficacy via Zn ion incorporation.
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