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Boosting Higher Alcohols Selectivity via Regulating Basicity of Ni/Hydroxyapatite in Ethanol Upgrading

Machen Xue, Zerun Jin, Bolun Yang, Chungu Xia, Gangli Zhu

2024ACS Catalysis22 citationsDOI

Abstract

Upgrading bioethanol to higher alcohols (C 6+ –OH) is an environmentally friendly process for the production of high-value-added chemicals. However, a low selectivity for C 6+ –OH is generally obtained due to the step-growth of the carbon chain, which leads to a preponderance of butanol in the product. In this work, we report base-Ni synergistic catalysis, with Ni δ+ on hydroxyapatite (HAP). The results showed that ethanol could be quickly dehydrogenated, continuously condensed, and finally hydrogenated to C 6+ alcohols under the synergistic action of Ni δ+ and Ca–[O 2– ]–Ca active site pairs. The loading of Ni on the OH – -rich HAP4 surface promotes the formation of more Ni δ+ and Ca–[O 2– ]–Ca, which has been shown to be beneficial for ethanol upgrading. Especially, the ethanol reaction rate and the yield of C 6+ –OH are directly proportional to the amount of Ni δ+ and the concentration of Ca–[O 2– ]–Ca, respectively. The situ ethanol infrared results demonstrated the catalytic ability of different basic catalysts for intermediate aldehydes, which led to differences in the selectivity of C 6+ –OH. A selectivity of 62.4% to C 6+ –OH with an ethanol conversion of 63.6% has been achieved on HAP4–0.5Ni with abundant Ni δ+ and Ca–[O 2– ]–Ca sites under optimized conditions. Combined with the physical and chemical properties of the catalyst and reaction results, the mechanism of upgrading ethanol to C 6+ –OH on Ni/HAP was also proposed.

Topics & Concepts

SelectivityCatalysisEthanolChemistryYield (engineering)AlcoholDehydrogenationInorganic chemistryNuclear chemistryOrganic chemistryMaterials scienceMetallurgyCatalysis for Biomass ConversionCatalysis and Hydrodesulfurization StudiesCatalytic Processes in Materials Science