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High Catalytic Activity in Upgrading of Ethanol to Aromatic Alcohols over Zinc Hydroxyapatite

Fan Tang, Wen‐Cui Li, Lei He, Dongqi Wang, An‐Hui Lu

2023ACS Sustainable Chemistry & Engineering12 citationsDOI

Abstract

The direct conversion of ethanol to aromatic alcohols has attracted much attention as increasingly available biomass ethanol fermented from renewable sources. Herein, we present a highly efficient zinc hydroxyapatite for direct synthesis of aromatic alcohols from ethanol with a specific rate of 1.95 × 10 –7 mol aromatics g catal –1 s –1, which is up to now the best in the literature. The γ-C of 2-butenal after deprotonation undergoes the nucleophilic attack to the carbonyl-C of another 2-butenal to form 2,4,6-octatrienal, which is subsequently cyclized to give ortho-aromatics, as the main pathway for the aromatization. Dynamic and theoretical studies reveal that the Zn site plays a role in hydrogen transfer for dehydrogenation and hydrogenation. The substitution of the Zn atom for the Ca atom was identified at the strong basic [Ca–O–P] site, and the Zn site lowers the energy barrier to ethanol dehydrogenation. The rate-determining step of this reaction is the coupling of two acetaldehyde molecules to form 2-butenal. This work provides a strategy to catalyze the efficient conversion of ethanol to high value-added aromatic alcohols and contributes to the development of protocols for sustainable synthesis of aromatic alcohols from biomass through heterogeneous catalysts.

Topics & Concepts

ChemistryAromatizationDehydrogenationCatalysisEthanolAcetaldehydeOrganic chemistryZincDeoxygenationAlcoholCombinatorial chemistryCatalysis for Biomass ConversionCatalysis and Hydrodesulfurization StudiesAsymmetric Hydrogenation and Catalysis
High Catalytic Activity in Upgrading of Ethanol to Aromatic Alcohols over Zinc Hydroxyapatite | Litcius