用于高光电化学性能的单晶SbSI纳米棒阵列-WO异质结构光阳极的构建。

The construction of a single-crystalline SbSI nanorod array-WO heterostructure photoanode for high PEC performance.

作者信息

Peng Guoliang, Lu Huidan, Liu Yongping, Fan Dayong

机构信息

College of Chemistry and Bioengineering, Guilin University of Technology, Guilin 116023, China.

出版信息

Chem Commun (Camb). 2021 Jan 14;57(3):335-338. doi: 10.1039/d0cc06148d.

DOI:10.1039/d0cc06148d

PMID:33313614

Abstract

A novel kind of highly efficient photoanode was constructed with a SbSI/WO3 heterostructurefabricated through two hydrothermal reactions followed by an iodination reaction (WO3 → Sb2S3/WO3 → SbSI/WO3). After optimizing the solvent [carbon disulfide (CS2)] for SbI3, the SbSI(CS2)/WO3 photoanode shows high-density single-crystalline SbSI nanorods growing along the polar [001] direction on WO3 nanoplates, resulting in excellent photocurrent performance (∼2.1 mA cm-2@1.23 V vs. RHE) and an improved photostability. It is evidenced that the higher crystallinity of SbSI has a positive effect on the photostability of the constructed SbSI/WO3 photoanodes.

摘要

通过两步水热反应然后进行碘化反应（WO3→Sb2S3/WO3→SbSI/WO3）制备了具有SbSI/WO3异质结构的新型高效光阳极。在优化了用于SbI3的溶剂[二硫化碳（CS2）]之后，SbSI(CS2)/WO3光阳极显示出高密度的沿[001]极性方向生长在WO3纳米板上的单晶SbSI纳米棒，从而产生了优异的光电流性能（在1.23 V相对于可逆氢电极时约为2.1 mA cm-2）以及提高的光稳定性。证明了SbSI较高的结晶度对所构建的SbSI/WO3光阳极的光稳定性具有积极影响。

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用于高光电化学性能的单晶SbSI纳米棒阵列-WO异质结构光阳极的构建。

The construction of a single-crystalline SbSI nanorod array-WO heterostructure photoanode for high PEC performance.

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