喷气燃料
脱羧
催化作用
价(化学)
化学
选择性
生物量(生态学)
光化学
材料科学
氢
可持续生产
激进的
太阳能燃料
化学工程
光催化
电子转移
加氢脱氧
有机化学
氧化还原
反应中间体
脱碳
生物炼制
反应机理
联轴节(管道)
作者
Zhiwei Chen,Hongru Zhou,Yan Liang,Zhaolin Dou,Xiaoyu Liang,Jingxuan Yang,Fanhao Kong,Min Wang
出处
期刊:ACS Nano
[American Chemical Society]
日期:2026-01-12
卷期号:20 (3): 3087-3097
被引量:2
标识
DOI:10.1021/acsnano.5c19788
摘要
Photocatalytic biomass conversion offers a sustainable route for jet fuel production under mild conditions, while controlling the selectivity of products remains a long-standing challenge because of the involvement of various radical intermediates. Herein, we report a strategy to achieve selective switching toward jet fuel (C8–C18 hydrocarbons) in the photocatalytic decarboxylation of biomass-derived fatty acids by regulating hydrogen radical transfer on TiO2 surfaces. By modulating the valence states of Rh cocatalysts, we spatially orient radical intermediates to guide their reaction pathways: oxidized Rh (Rh3+) promotes decarboxylative hydrogenation (yielding Cn–1 alkanes), while reduced Rh (Rh0) drives decarboxylative C–C coupling (forming C2n–2 alkanes). This approach enables selective conversion of a broad range of biomass-derived acids, including fatty acids, aromatic acids, branched-chain fatty acids, and naphthenic acids, into target jet fuel hydrocarbons. This work provides an effective strategy for directing reaction pathways through spatial control of radical intermediates, advancing the development of sustainable biomass upgrading technologies.
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