Xiaolu Pang scite author profile

We present a study of a transition metal oxide composite modified n-Si photoanode for efficient and stable water oxidation. This sputter-coated composite functions as a protective coating to prevent Si from photodecomposition, a Schottky heterojunction, a hole conducting layer for efficient charge separation and transportation, and an electrocatalyst to reduce the reaction overpotential. The formation of mixed-valence oxides composed of Ni and Ru effectively modifies the optical, electrical, and catalytic properties of the coating material, as well as the interfaces with Si. The successful application of this oxide composite on nanotextured Si demonstrates improved conversion efficiency due to enhanced catalytic activity, minimized reflection, and increased surface reaction sites. Although the coated nanotextured Si shows a noticeable degradation from 500 cycles of operation, the oxide composite provides a simple method to enable unstable photoanode materials for solar fuel conversion.

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Mechanical properties of CO2 corrosion product scales and their relationship to corrosion rates

Gao

Pang

et al. 2008

Corrosion Science

132

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Xiaolu Pang

Nickel oxide functionalized silicon for efficient photo-oxidation of water

The growth mechanism of CO2 corrosion product films

Discussion of the CO2 corrosion mechanism between low partial pressure and supercritical condition

Metal Oxide Composite Enabled Nanotextured Si Photoanode for Efficient Solar Driven Water Oxidation

Mechanical properties of CO2 corrosion product scales and their relationship to corrosion rates

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