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Efficient Hydrogenation of Methyl Palmitate to Hexadecanol over Cu/m-ZrO<sub>2</sub> Catalysts: Synergistic Effect of Cu Species and Oxygen Vacancies

Xiaohai Zheng, Panjie Yu, Yaxin Liu, Yongde Ma, Yanning Cao, Zhenping Cai, Linsen Zhou, Kuan Huang, Shou‐Tian Zheng, Lilong Jiang

2023ACS Catalysis85 citationsDOI

Abstract

Renewable fatty esters are a class of clean feedstock to produce high value-added fatty alcohols. Herein, the hydrogenation of methyl palmitate (MP) to hexadecanol over defect-rich Cu/m-ZrO 2 catalysts was studied systematically. A series of Cu/m-ZrO 2 catalysts with different concentrations of oxygen vacancies (Ovs) were fabricated by adjusting the calcination temperature of m-ZrO 2 support. Among the catalysts, Cu/m-ZrO 2 -350 displays the highest Cu dispersion, the largest number of Cu 0 sites and surface Ov concentration, which exhibits the best activity for MP hydrogenation. It gives the MP conversion of 94.6% and hexadecanol yield of 93.3% at 300 °C and 7.5 MPa of H 2 . Spectroscopic characterizations and theoretical calculations revealed that the highly dispersed Cu species and abundant Ov sites synergistically boost the hydrogenation of MP. Specifically, the Cu 0 sites facilitate the heterolysis of H 2, and the Ov sites contribute to the dissociation of MP. The synergistic effect of Cu species and Ov sites disclosed in this work provides deep insights into the design of catalysts for efficient conversion of fatty esters to fatty alcohols.

Topics & Concepts

CatalysisChemistryHeterolysisOxygenDissociation (chemistry)Fatty alcoholLeaching (pedology)CalcinationOrganic chemistryEnvironmental scienceSoil waterSoil scienceCatalysis for Biomass ConversionCatalysis and Hydrodesulfurization StudiesCatalysts for Methane Reforming
Efficient Hydrogenation of Methyl Palmitate to Hexadecanol over Cu/m-ZrO<sub>2</sub> Catalysts: Synergistic Effect of Cu Species and Oxygen Vacancies | Litcius