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In situ Observation of Electrodeposited Bimetallic p-Si Micropillar Array Photocathode for Solar-Driven Hydrogen Evolution
Journal
Solar RRL
Journal Volume
4
Journal Issue
8
Date Issued
2020
Author(s)
Abstract
The integration of Earth-abundant materials with light-harvesting absorbers to create a high-efficiency photocathode is a promising approach for solar-driven water splitting. It is essential for such systems to provide a practical photocurrent response and overpotential for driving hydrogen production. Herein, electrodeposited Ni–M (M = Co, Fe, Mo) is investigated as a surface catalyst onto p-type silicon micropillar arrays for solar-driven hydrogen evolution, and the generation of catalytic active species by in situ and ex situ tracking methods is directly observed. The dynamic electronic and atomic structures of highly active surface catalysts are identified during photocatalysis in alkaline condition. Furthermore, the incorporation of high-valence Mo species acts as a key promoter for triggering the in situ formation of active Ni2+ species on the surface of alloys. These findings offer guidelines for the design and development of highly efficient catalytic photocathodes. ? 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Subjects
Catalysts; Crystal atomic structure; Driers (materials); Electrodeposition; Field emission cathodes; Hydrogen production; Photocathodes; Silicon; Solar absorbers; Solar power generation; Alkaline conditions; Design and Development; Earth-abundant materials; In-situ formations; In-situ measurement; In-situ observations; Micropillar arrays; Photocurrent response; Hydrogen evolution reaction
SDGs
Other Subjects
Catalysts; Crystal atomic structure; Driers (materials); Electrodeposition; Field emission cathodes; Hydrogen production; Photocathodes; Silicon; Solar absorbers; Solar power generation; Alkaline conditions; Design and Development; Earth-abundant materials; In-situ formations; In-situ measurement; In-situ observations; Micropillar arrays; Photocurrent response; Hydrogen evolution reaction
Type
journal article