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Zhang, Xinyi
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article
Metal-free black silicon for solar-powered hydrogen generation
Abstract
<p>Nanostructured black Si materials prepared by metal-assisted wet chemical etching (MaCE) using HF to drive the nanostructuring, have emerged as excellent light-harvesting materials for solar water splitting. Recently, their remarkable solar-to-hydrogen conversion capability was attributed to their surface oxidation mechanism. However, the same mechanism inhibits the interfacial kinetics within hours, and therefore they are deemed not suitable for a fully-functional hydrogen generating cell. Herein, we investigate the performance and interfacial kinetics of solar-to-hydrogen fuel conversion on black Si photocathodes that, for the first time, are free of any metal catalysts. We developed a near 100% metal-free Si interface by a HF-free etching approach. Systematic analysis and optimization of the nanostructure morphology and photoelectrochemical procedures supported continuous photoelectrochemical hydrogen generation for ∼250 h, involving −1.18 × 10<sup>4</sup> C.cm<sup>−2</sup> of charge transfer at overpotentials as low as −0.2 V vs. RHE. We find that this high-performance of bSi makes it attractive as a green solar-to-hydrogen platform.</p>