用于太阳能水分解的n型硅光电阴极中光吸收与反应位点的空间解耦。

Spatial decoupling of light absorption and reaction sites in n-Si photocathodes for solar water splitting.

作者信息

Wang Shujie, Wang Tuo, Liu Bin, Li Huimin, Feng Shijia, Gong Jinlong

机构信息

School of Chemical Engineering and Technology, Key Laboratory for Green Chemical Technology of Ministry of Education, Tianjin University, Tianjin 300072, China.

出版信息

Natl Sci Rev. 2020 Dec 15;8(8):nwaa293. doi: 10.1093/nsr/nwaa293. eCollection 2021 Aug.

DOI:10.1093/nsr/nwaa293

PMID:34691709

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8363328/

Abstract

Metal-insulator-semiconductor (MIS) photocathodes offer a simple alternative to p-n junction photocathodes in photoelectrochemical water splitting. However, the parasitic light absorption of catalysts and metal layers in the MIS junction, as well as the lack of low work function metals to form a large band offset with p-Si, severely limit their performance. This paper describes an MIS photocathode fabricated from n-Si, rather than the commonly used p-Si, to spatially decouple light absorption from reaction sites, which enables the majority carriers, instead of the commonly used minority carriers, to drive the surface reaction, making it possible to place the reaction sites far away from the light absorption region. Thus, the catalysts could be moved to the backside of the MIS junction to avoid light shielding. Moreover, the adoption of n-Si unlocks a variety of high work function materials for photovoltage generation. The obtained n-Si MIS photocathode exhibits an applied bias photon-to-current efficiency of 10.26% with a stability up to 300 h.

摘要

金属-绝缘体-半导体（MIS）光阴极在光电化学水分解中为p-n结光阴极提供了一种简单的替代方案。然而，MIS结中催化剂和金属层的寄生光吸收，以及缺乏能与p-Si形成大带隙偏移的低功函数金属，严重限制了它们的性能。本文描述了一种由n-Si而非常用的p-Si制成的MIS光阴极，以在空间上使光吸收与反应位点解耦，这使得多数载流子而非常用的少数载流子能够驱动表面反应，从而有可能将反应位点放置在远离光吸收区域的地方。因此，催化剂可以移至MIS结的背面以避免光屏蔽。此外，采用n-Si为光电压产生开启了多种高功函数材料。所制备的n-Si MIS光阴极的外加偏压光子-电流效率为10.26%，稳定性高达300小时。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d8fb/8363328/7f4d218c695a/nwaa293fig1.jpg

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用于太阳能水分解的n型硅光电阴极中光吸收与反应位点的空间解耦。

Spatial decoupling of light absorption and reaction sites in n-Si photocathodes for solar water splitting.

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