揭示用于光电化学生物质增值的 WO 的晶相驱动活性和选择性。

Unraveling Crystal Phase-Driven Activity and Selectivity of WO for Photoelectrochemical Biomass Valorization.

作者信息

Wu Chin-Chan, Vo Truong-Giang, Sullivan Michael B, Ong Khuong P, Jin Hongmei, Chuang Angela, Huynh Pham Minh-Trang, Chiang Chia-Ying

机构信息

Department of Chemical Engineering, National Taiwan University of Science and Technology, Taipei 10607, Taiwan.

Institute of Sustainability for Chemicals, Energy and Environment (ISCE2), Agency for Science, Technology and Research (A*STAR), 1 Pesek Road, Singapore 627833, Republic of Singapore.

出版信息

Inorg Chem. 2025 Jan 27;64(3):1579-1586. doi: 10.1021/acs.inorgchem.4c05048. Epub 2025 Jan 12.

DOI:10.1021/acs.inorgchem.4c05048

PMID:39801029

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11776042/

Abstract

Modulating the crystal phase of a photocatalyst significantly impacts its surface and photochemical properties, allowing for the adjustment of catalytic activity and selectivity, particularly in the electrooxidation reactions of biomass-derived chemicals. Herein, monoclinic and hexagonal phases of WO are employed as photoanodes for the photoelectrochemical conversion of 5-hydroxymethylfurfural (HMF) to 2,5-diformylfuran (DFF). The monoclinic phase demonstrated exceptional performance in photoelectrocatalytic HMF oxidation, achieving remarkable photocurrent densities (1.1 mA cm), which were 5.5 times greater than those observed for hexagonal WO. Moreover, the yield of DFF products obtained over monoclinic WO was approximately 2.5 times higher compared to that of hexagonal WO. A combination of experiments and theoretical calculations indicates that the superior performance of monoclinic WO for HMF oxidation mainly originates from enhanced light harvesting efficiency, better charge separation and utilization, balanced adsorption energy, and stronger oxidative ability of photogenerated holes. This study emphasizes the potential of crystal phase engineering to regulate the reaction activity and selectivity and provides insights into how to design next-generation high-performance photoelectrodes for sustainable chemical production from biomass.

摘要

调节光催化剂的晶相会显著影响其表面和光化学性质，从而能够调整催化活性和选择性，尤其是在生物质衍生化学品的电氧化反应中。在此，采用单斜相和六方相的WO作为光阳极，用于将5-羟甲基糠醛（HMF）光电化学转化为2,5-二糠醛（DFF）。单斜相在光电催化HMF氧化中表现出卓越的性能，实现了显著的光电流密度（1.1 mA cm），比六方相WO观察到的光电流密度大5.5倍。此外，在单斜相WO上获得的DFF产物产率比六方相WO高约2.5倍。实验和理论计算相结合表明，单斜相WO在HMF氧化方面的优异性能主要源于增强的光捕获效率、更好的电荷分离和利用、平衡的吸附能以及光生空穴更强的氧化能力。本研究强调了晶相工程在调节反应活性和选择性方面的潜力，并为如何设计用于生物质可持续化学生产的下一代高性能光电极提供了见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7d0e/11776042/91246bd2650b/ic4c05048_0001.jpg

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揭示用于光电化学生物质增值的 WO 的晶相驱动活性和选择性。

Unraveling Crystal Phase-Driven Activity and Selectivity of WO for Photoelectrochemical Biomass Valorization.

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