Confined Ruthenium Nanoparticles as an Effective Catalyst for Aerobic Oxidation of Aqueous Ethanol to Acetic Acid

Ding, Hongyi; Qi, Xiang; Yun, Xuehai; Ge, Jingmin; Tian, Ye; Lei, Xiaodong; Zhang, Fazhi

Confined Ruthenium Nanoparticles as an Effective Catalyst for Aerobic Oxidation of Aqueous Ethanol to Acetic Acid

2022

Confined ruthenium nanoparticle catalyst, Ru/Mg₁–ₓFeₓO, is easily prepared by hydrogen reduction of a Mg²⁺Fe³⁺Ru³⁺-layered double hydroxides (MgFeRu-LDHs) precursor at controlled temperature. The hydrogen reduction temperature has an enormous effect on sample composition, structure, and morphology. A precipitation-embedding mechanism is proposed for preparation process of Ru catalyst. Ru⁰ is initially precipitated from LDHs precursor and is accompanied by the transformation from the LDHs precursor into sjoegrenite. With reduction temperature rises, Ru nanoparticles are implanted by weak crystalline Mg₁–ₓFeₓO. Ru/Mg₁–ₓFeₓO sample reduced at 300 °C has higher catalytic performance for aerobic oxidation of ethanol, with ethanol conversion 94.1% and acetic acid selectivity 95.6%. We speculate that MgO breaks the O–H bond, ruthenium breaks the C–H bond, and FeOₓ provides lattice oxygen and oxygen vacancies to promote the catalytic cycle. The confinement effect increases the effective contact between the catalytic active site and the substrate, which contributes to O₂ activation and ethanol adsorption.

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