Bong‐Joong Kim scite author profile

In photoelectrochemical (PEC) water splitting, BiVO4 is considered the most promising photoanode material among metal oxide semiconductors because of its relatively narrow optical bandgap and suitable band structure for water oxidation. Nevertheless, until now, the solar-to-hydrogen conversion efficiency of BiVO4 has shown significant limitations for commercialization because of its poor charge transport. Various strategies, including the formation of a heterojunction and doping of electron donors, have been implemented to enhance the charge transport efficiency; however, fundamental approaches are required for further enhancement. In this regard, we report the fundamental approach for BiVO4 thin film photoanodes by fabricating epitaxial oxide thin films with different crystallographic orientations for PEC water splitting. The crystalline anisotropy generally reveals distinct physical phenomena along different crystallographic orientations. In the same vein, in terms of the anisotropic properties of BiVO4, the electrical conductivity of BiVO4 is greater along the ab-plane than along the c-axis. Consequently, as the crystallographic orientation of the BiVO4 thin film changes from (001) to (010), the charge transport properties in the epitaxial BiVO4 thin film are significantly enhanced. Thus, at 1.23 VRHE, the photocurrent density of the epitaxial BiVO4 (010) thin film (2.29 mA cm–2) is much higher than that of the epitaxial BiVO4 (001) thin film (0.74 mA cm–2) because of significant enhancement in charge transport properties even for undoped BiVO4. These results strongly suggest that the growth of epitaxial BiVO4 thin films with specific crystallographic orientations has great potential to considerably improve the charge transport efficiency of photoanodes for solar water splitting.

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Realization of highly reproducible ZnO nanowire field effect transistors with n-channel depletion and enhancement modes

Hong

Hwang

Park

et al. 2007

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The authors demonstrate the highly reproducible fabrication of n-channel depletion-mode (D-mode) and enhancement-mode (E-mode) field effect transistors (FETs) created from ZnO nanowires (NWs). ZnO NWs were grown by the vapor transport method on two different types of substrates. It was determined that the FETs created from ZnO NWs grown on an Au-coated sapphire substrate exhibited an n-channel D mode, whereas the FETs of ZnO NWs grown on an Au-catalyst-free ZnO film exhibited an n-channel E mode. This controlled fabrication of the two operation modes of ZnO NW-FETs is important for the wide application of NW-FETs in logic circuits.

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Cadmium induces caspase-mediated cell death: suppression by Bcl-2

Kim

Woo

et al. 2000

Toxicology

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Molecular-level electrochemical doping for fine discrimination of volatile organic compounds in organic chemiresistors

et al. 2020

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Bong‐Joong Kim

Organic Single‐Crystal Semiconductor Films on a Millimeter Domain Scale

Tailoring Crystallographic Orientations to Substantially Enhance Charge Separation Efficiency in Anisotropic BiVO₄ Photoanodes

Realization of highly reproducible ZnO nanowire field effect transistors with n-channel depletion and enhancement modes

Cadmium induces caspase-mediated cell death: suppression by Bcl-2

Molecular-level electrochemical doping for fine discrimination of volatile organic compounds in organic chemiresistors

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Bong‐Joong Kim

Organic Single‐Crystal Semiconductor Films on a Millimeter Domain Scale

Tailoring Crystallographic Orientations to Substantially Enhance Charge Separation Efficiency in Anisotropic BiVO4 Photoanodes

Realization of highly reproducible ZnO nanowire field effect transistors with n-channel depletion and enhancement modes

Cadmium induces caspase-mediated cell death: suppression by Bcl-2

Molecular-level electrochemical doping for fine discrimination of volatile organic compounds in organic chemiresistors

Contact Info

Product

Resources

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Tailoring Crystallographic Orientations to Substantially Enhance Charge Separation Efficiency in Anisotropic BiVO₄ Photoanodes