Interface engineering of the photoelectrochemical performance of Ni-oxide-coated n-Si photoanodes by atomic-layer deposition of ultrathin films of cobalt oxideElectronic supplementary information (ESI) available. See DOI: 10.1039/c5ee01687h

Introduction of an ultrathin (2 nm) film of cobalt oxide (CoO x ) onto n-Si photoanodes prior to sputter-deposition of a thick multifunctional NiO x coating yields stable photoelectrodes with photocurrent-onset potentials of ∼−240 mV relative to the equilibrium potential for O 2 (g) evolution and cu...

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Hauptverfasser:	Zhou, Xinghao, Liu, Rui, Sun, Ke, Friedrich, Dennis, McDowell, Matthew T, Yang, Fan, Omelchenko, Stefan T, Saadi, Fadl H, Nielander, Adam C, Yalamanchili, Sisir, Papadantonakis, Kimberly M, Brunschwig, Bruce S, Lewis, Nathan S
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creator	Zhou, Xinghao Liu, Rui Sun, Ke Friedrich, Dennis McDowell, Matthew T Yang, Fan Omelchenko, Stefan T Saadi, Fadl H Nielander, Adam C Yalamanchili, Sisir Papadantonakis, Kimberly M Brunschwig, Bruce S Lewis, Nathan S
description	Introduction of an ultrathin (2 nm) film of cobalt oxide (CoO x ) onto n-Si photoanodes prior to sputter-deposition of a thick multifunctional NiO x coating yields stable photoelectrodes with photocurrent-onset potentials of ∼−240 mV relative to the equilibrium potential for O 2 (g) evolution and current densities of ∼28 mA cm −2 at the equilibrium potential for water oxidation when in contact with 1.0 M KOH(aq) under 1 sun of simulated solar illumination. The photoelectrochemical performance of these electrodes was very close to the Shockley diode limit for moderately doped n-Si(100) photoelectrodes, and was comparable to that of typical protected Si photoanodes that contained np + buried homojunctions. Interfacial CoO x layers provide a route to stable, high-performance Si photoanodes for water splitting, without requiring np + homojunctions.
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title	Interface engineering of the photoelectrochemical performance of Ni-oxide-coated n-Si photoanodes by atomic-layer deposition of ultrathin films of cobalt oxideElectronic supplementary information (ESI) available. See DOI: 10.1039/c5ee01687h
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