糠醇
糠醛
催化作用
选择性
化学
价(化学)
氧化态
纳米团簇
吸附
光化学
铂金
金属
无机化学
工作职能
多相催化
反应机理
二聚体
轨道杂交
MINDO公司
双键
氢解
共价键
粘结长度
氧化还原
作者
Xin Li,Jianguo Wu,Xuning Wang,Cuiwei Xu,Shoufan Hu,Dong Cao,Daojian Cheng
出处
期刊:ACS Catalysis
[American Chemical Society]
日期:2026-02-02
卷期号:16 (4): 3346-3356
标识
DOI:10.1021/acscatal.5c07387
摘要
The C═O selective hydrogenation of furfural (FAL) is challenging due to the competitive adsorption of C═C and C═O. Herein, Pt nanoclusters with different average valences are synthesized by the deposition precipitation strategy. Notably, the FAL hydrogenation activity shows a volcano trend with increasing Pt average valence. Importantly, the Pt nanocluster catalyst with an average valence of +0.97 (Pt cluster-300) exhibits a 99.6% FAL conversion and 100.0% furfuryl alcohol (FOL) selectivity during furfural hydrogenation, close to the world record level. UV–visible spectroscopy studies indicate that Pt cluster-300 exhibits the highest adsorption capacity for FAL compared to other catalysts in this study. Further theoretical calculations reveal the high catalytic activity of Pt cluster-300 mainly derives from the higher hybridization between the d orbital of Pt and the 2p orbital of C═O bond in FAL molecules, indicating the moderate Pt valence exhibits better ability to activate the C═O bond in FAL and thus enhancing the hydrogenation kinetics. This work provides insight into the influence mechanism of metal valence during hydrogenation reactions.
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