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Mechanistic Insight into Favorable Aldehyde Hydrogenation over Hydroxymethyl Hydrogenolysis in 5-Hydroxymethylfurfural by Formic Acid over Single-Atom Co-N<sub>3</sub>/C

Jin-Tao Gou, Wei Tai, Shuai Fu, Ting‐Hao Liu, Yinsheng Zhang, Changwei Hu, Hua‐Qing Yang

2023The Journal of Physical Chemistry C11 citationsDOI

Abstract

Although the Co–N–C catalyst exhibits good catalytic performance toward the hydrogenation of 5-hydroxymethylfurfural (HMF) with formic acid (FA) as the H source, its catalytic mechansim is still unclear at the molecular level, including competitive hydrogenation of the aldehyde (−CHO) group and hydrogenolysis of the hydroxymethyl (−CH 2 OH) group. Here, a single-atom Co-N 3 /C surface was modeled as a Co–N–C catalyst with an armchair model of activated carbon support. Over Co-N 3 /C, the catalytic mechanism for the hydrogenation/hydrogenolysis of HMF with FA has been theoretically investigated in 1,4-dioxane solution at the GGA-PBE/DNP level. The hydrogenation product, i.e., 2,5-dihydroxymethylfuran (DHMF), should be predominant, whereas the hydrogenolysis products, i.e., 5-methylfurfuryl alcohol (5-MFA), 5-methylfurfural (5-MF), and 2,5-dimethylfuran (DMF), should be minor. The rate-determining steps are concerned with the cleavage of the C–H bond in the FA moiety through an intermolecular H-shift. For the crucial transition states, compared with the Co–C group in the hydrogenolysis of the −CH 2 OH group, the Co–O–C group in the hydrogenation of the −CHO group can more efficiently promote the cleavage of the C–H bond in the FA moiety, which stems from the electrophilic properties of aldehyde oxygen. Kinetically, Co-N 3 /C boosts the hydrogenation of the −CHO group to a −CH 2 OH group and selectively hampers the hydrogenolysis of the −CH 2 OH group to a −CH 3 group.

Topics & Concepts

HydrogenolysisChemistryAldehydeHydroxymethylCatalysisFormic acidMoietyMedicinal chemistryElectrophileOrganic chemistryLeaving groupFormateBond cleavageCatalysis for Biomass ConversionCarbon dioxide utilization in catalysisAsymmetric Hydrogenation and Catalysis
Mechanistic Insight into Favorable Aldehyde Hydrogenation over Hydroxymethyl Hydrogenolysis in 5-Hydroxymethylfurfural by Formic Acid over Single-Atom Co-N<sub>3</sub>/C | Litcius