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Enabling silicon photoanodes for efficient solar water splitting by electroless-deposited nickel

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Abstract

Enabling Si photoanodes for efficient solar water oxidation would facilitate the development of solar fuel conversion, but it is challenging owing to Si surface passivation via photo-induced corrosion in aqueous electrolytes. To overcome this challenge, most approaches have focused on improving the stability of Si by coating dense and thin protective layers using high vacuum-based techniques such as atomic layer deposition. However, these procedures are costly, making scalability for practical applications difficult. Herein, we report a modified electroless deposition (ELD) method to uniformly deposit protective and catalytic Ni films on Si wafers, resulting in efficient and stable Si photoanodes for solar water oxidation. The optimized Ni/n-Si photoanode achieves an onset potential of ∼ 1.09 V vs. a reversible hydrogen electrode and a saturation current density of ∼ 27.5 mA/cm2 under AM 1.5 G illumination at pH 14. The ELD method is additionally capable of Ni deposition on a 4-inch n-Si wafer, demonstrating the first 4-inch Si photoanode. The solar water oxidation of the ELD-Ni/n-Si photoanode can be further improved by surface texturing, built-in n–p junctions, or coupling with more efficient catalysts.

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Acknowledgements

Part of this work was performed at the Stanford Nano Shared Facilities (SNSF), supported by the National Science Foundation under award ECCS-1542152.

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Authors and Affiliations

  1. Department of Mechanical Engineering, Stanford University, Stanford, 94305, USA

    Jiheng Zhao, Thomas Mark Gill & Xiaolin Zheng

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  1. Jiheng Zhao
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  2. Thomas Mark Gill
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  3. Xiaolin Zheng
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Correspondence to Xiaolin Zheng.

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Zhao, J., Gill, T.M. & Zheng, X. Enabling silicon photoanodes for efficient solar water splitting by electroless-deposited nickel. Nano Res. 11, 3499–3508 (2018). https://doi.org/10.1007/s12274-018-2038-4

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  • DOI: https://doi.org/10.1007/s12274-018-2038-4

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