Litcius/Paper detail

Highly Efficient Cleavage of Ether Bonds in Lignin Models by Transfer Hydrogenolysis over Dual‐Functional Ruthenium/Montmorillonite

Zhimin Xue, Haitao Yu, Jing He, Yibin Zhang, Lan Xue, Rundong Liu, Luyao Zhang, Tiancheng Mu

2020ChemSusChem33 citationsDOI

Abstract

Cleavage of ether bonds is a crucial but challenging step for lignin valorization. To efficiently realize this transformation, the development of robust catalysts or catalytic systems is required. In this study, montmorillonite (MMT)-supported Ru (denoted as Ru/MMT) is fabricated as a dual-functional heterogeneous catalyst to cleave various types of ether bonds through transfer hydrogenolysis without using any additional acids or bases. The prepared Ru/MMT material is found to efficiently catalyze the cleavage of various lignin models and lignin-derived phenols; cyclohexanes (fuels) and cyclohexanols (key intermediates) are the main products. The synergistic effect between electron-enriched Ru and the acidic sites on MMT contributes to the excellent performance of Ru/MMT. Systematic studies reveal that the reaction proceeds through two possible reaction pathways, including the direct cleavage of ether bonds and the formation of intermediates with one hydrogenated benzene ring, for all examined types of ether bonds, namely, 4-O-5, α-O-4, and β-O-4.

Topics & Concepts

HydrogenolysisChemistryLigninEtherCatalysisBond cleavageMontmorilloniteCleavage (geology)Organic chemistrySilyl etherCyclohexanolRutheniumWilliamson ether synthesisPolymer chemistryMaterials scienceSilylationFracture (geology)Composite materialLignin and Wood ChemistryCatalysis and Hydrodesulfurization StudiesCatalysis for Biomass Conversion