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Identifying and Removing the Interfacial States in Metal-Oxide–Semiconductor Schottky Si Photoanodes for the Highest Fill Factor

Jiangping Ma, Haibo Chi, Aoqi Wang, Pengpeng Wang, Huanwang Jing, Tingting Yao, Can Li

2022Journal of the American Chemical Society34 citationsDOI

Abstract

A critical bottleneck for realizing an efficient Schottky type Si photoelectrode is minimizing the charge extraction losses across the heterointerface via reducing the unfavorite defects. This requires a clear microscopic insight into the correlation between interfacial features and photoconversion. Herein, by taking the n-Si/oxide (MOx)/Ni as the prototype, the heterointerface with the different characteristics and its effects on charge transportation and the corresponding photoelectric/photoelectrochemical (PEC) behaviors were clarified. An ultra-thin AlOx layer can effectively diminish the interfacial pinning of n-Si/Ni and significantly facilitate the photoconversion; meanwhile, it results in some unexpected donor-like deep defects at around 0.59 eV below the conduction band of n-Si, which could be ionized under a reverse bias and cause about 10% photogenerated charge recombination. Fortunately, these deep defects can be further eliminated by cooperating AlOx with a thin Au layer. The AlOx/Au dual-interlayer can remove almost all unexpected defects and maximize the efficiency of the electric field for charge extraction from semiconductor Si for the surface catalytic reaction. Eventually, the n-Si/SiOx/AlOx/Au/Ni/NiFeOx photoanode exhibited a record fill factor of 0.75 for the corresponding photoelectric device and an applied bias photon-to-current efficiency of 3.71% for PEC water oxidation. This study provides definite insights into interfacial electronic states and elaborates their crucial role in solar photoelectric conversion.

Topics & Concepts

Schottky barrierChemistryPhotoelectric effectOptoelectronicsSemiconductorPhotocurrentHeterojunctionDepletion regionOxideSchottky diodeElectrolyteMaterials scienceDiodeElectrodePhysical chemistryOrganic chemistrySemiconductor materials and devicesSemiconductor materials and interfacesSilicon Nanostructures and Photoluminescence
Identifying and Removing the Interfacial States in Metal-Oxide–Semiconductor Schottky Si Photoanodes for the Highest Fill Factor | Litcius