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Functional Catalysts for Self-Supported Hydrodeoxygenation of Anisole in Water

Xuan Liu, Haifang Shen, Hao Li

2024ACS Sustainable Chemistry & Engineering10 citationsDOI

Abstract

As the need for safeguarding the environment and fostering sustainable economic growth increases, the effective transformation of biomass resources has garnered significant interest. Hydrodeoxygenation (HDO) stands as a crucial and hopeful route for transforming biomass into biofuels or chemicals. A critical limitation of this technology lies in its reliance on high-pressure hydrogen, a costly resource known for its high costs and safety concerns. Therefore, there is a need to design and develop efficient lignin conversion technologies and the corresponding efficient catalysts using hydrogen generated in situ from lignin as the hydrogen source. In this paper, the self-hydrogenolysis reaction of anisole using the hydrogen source in the reactants to produce benzene was proposed, and the corresponding efficient and stable encapsulated Ni-based catalysts were developed. A series of carbon-coated Ni-based catalysts (Ni@C-T) were prepared for the self-hydrogenolysis reaction of anisole using a one-step pyrolysis method with acetylacetonate metal as the carbon and metal source by adjusting the pyrolysis temperature. Under the reaction conditions of 230 °C, 2 h, and 1 MPa N 2, 15.42% conversion of anisole and 57.43% benzene selectivity were obtained. In addition, it was observed that the Ni@C-500 catalyst exhibited good cycling stability.

Topics & Concepts

HydrodeoxygenationAnisoleHydrogenolysisCatalysisChemistryPyrolysisHydrogenBenzeneCarbon fibersOrganic chemistryChemical engineeringMaterials scienceSelectivityComposite numberComposite materialEngineeringCatalysis and Hydrodesulfurization StudiesCatalysis for Biomass ConversionLignin and Wood Chemistry
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