Efficient photocatalytic green hydrogen production using crystalline elemental Boron nanostructures under visible light
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY(2024)
摘要
Green Hydrogen emerges as a promising energy solution in the quest for achieving Net Zero goals. The application of particulate semiconductors in photocatalytic water splitting introduces a potentially scalable and economically viable technology for converting solar energy into hydrogen. Overcoming the challenge of efficiently transferring photoelectrons and photoholes for both reduction and oxidation on the same catalyst is a significant hurdle in photocatalysis. In this context, we introduce highly efficient crystalline elemental boron nanostructures as photocatalysts, employing a straightforward and scalable synthesis method yield green hydrogen production without the need for additional co-catalysts or sacrificial agents. The resulting photocatalyst demonstrates stability and high activity in H-2 production, achieving over 1 % solar-to-hydrogen energy conversion efficiency (>15,000 mu mol. g(-1).h(-1)) during continuous 12-h illumination. This efficiency is credited to broad optical absorption and the crystalline nature of boron nanostructures, paving the way for potential scale-up of reactors using crystalline boron photocatalysts.
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关键词
Green Hydrogen,Photo catalysis,Boron nanostructures,Hydrogen evolution
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