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Adsorption Configuration-Determined Selective Hydrogenative Ring Opening and Ring Rearrangement of Furfural over Metal Phosphate

Zhikun Tong, Xiang Li, Jingyu Dong, Rui Gao, Qiang Deng, Jun Wang, Zheling Zeng, Ji‐Jun Zou, Shuguang Deng

2021ACS Catalysis121 citationsDOI

Abstract

Developing an economic catalyst to upgrade furfural to alcohols (such as linear alcohol and cyclopentanol) is highly significant for fine chemical synthesis and biomass utilization. Here, a class of metal phosphate nanoparticles (such as CoP, Co2P, and Ni2P) with different metal compositions and topological structures is synthesized. The acidity and hydrogen activation ability were well adjusted according to the types. An 80.2% yield of 1,2,5-pentanetriol was reported for the first time via a hydrogenative ring-opening route over CoP, whereas Ni2P shows a high catalytic efficiency for cyclopentanol with a 62.8% yield via a hydrogenative ring-rearrangement route. Based on the catalytic performance of Pd/C and the result of attenuated total reflectance–infrared spectroscopy, the route difference is derived from the adsorption configuration of furfural on the catalyst. After loading on the insert support, the metal phosphate/support catalysts show high activity and stability during the recycling experiments. This work provides an effective strategy to regulate the reaction path through an adsorption mechanism and shows the precise synergistic effect of hydrogenation and acid catalysis.

Topics & Concepts

FurfuralCatalysisAdsorptionChemistryMetalYield (engineering)NanoparticleInorganic chemistryChemical engineeringOrganic chemistryMaterials scienceNanotechnologyMetallurgyEngineeringCatalysis for Biomass ConversionCatalysis and Hydrodesulfurization StudiesNanomaterials for catalytic reactions
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