Advancing Applications of Black Phosphorus and BP‐Analog Materials in Photo/Electrocatalysis through Structure Engineering and Surface Modulation,Advanced Science

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Advancing Applications of Black Phosphorus and BP‐Analog Materials in Photo/Electrocatalysis through Structure Engineering and Surface Modulation
Advanced Science ( IF 14.3 ) Pub Date : 2020-08-06 , DOI: 10.1002/advs.202001431
Teng Yin _{1,

2} , Liyuan Long ₁ , Xian Tang ₃ , Meng Qiu ₄ , Weiyuan Liang ₂ , Rui Cao ₂ , Qizhen Zhang ₅ , Dunhui Wang ₁ , Han Zhang ₂

Affiliation

Black phosphorus (BP), an emerging 2D material semiconductor material, exhibits unique properties and promising application prospects for photo/electrocatalysis. However, the applications of BP in photo/electrocatalysis are hampered by the instability as well as low catalysis efficiency. Recently, tremendous efforts have been dedicated toward modulating its intrinsic structure, electronic property, and charge separation for enhanced photo/electrocatalytic performance through structure engineering. Simultaneously, the search for new substitute materials that are BP‐analogous is ongoing. Herein, the latest theoretical and experimental progress made in the structural/surface engineering strategies and advanced applications of BP and BP‐analog materials in relation to photo/electrocatalysis are extensively explored, and a presentation of the future opportunities and challenges of the materials is included at the end.

中文翻译：

通过结构工程和表面调制推进黑磷和BP-类似材料在光/电催化中的应用

黑磷（BP）是一种新兴的二维材料半导体材料，具有独特的性能和良好的光/电催化应用前景。然而，BP在光/电催化方面的应用受到不稳定性和低催化效率的阻碍。最近，人们致力于通过结构工程调节其固有结构、电子特性和电荷分离以增强光/电催化性能。与此同时，寻找新的 BP 类似替代材料的工作仍在进行中。本文广泛探讨了 BP 和 BP 类似材料在光/电催化方面的结构/表面工程策略和先进应用方面取得的最新理论和实验进展，并介绍了该材料的未来机遇和挑战在最后。

更新日期：2020-10-07

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