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Ru on N‐doped Carbon for the Selective Hydrogenolysis of Sugars and Sugar Alcohols

Anna Katharina Beine, Jil Ludovicy, Jiachun Chai, Jan P. Hofmann, Christoph Glotzbach, Peter J. C. Hausoul, Regina Palkovits

2022ChemCatChem12 citationsDOIOpen Access PDF

Abstract

Abstract Glycols are accessible via metal‐catalyzed hydrogenolysis of sugar alcohols such as xylitol obtained from hemicellulose. Ru‐based catalysts are highly active but also catalyze side‐reactions such as decarbonylation and deoxygenation. To achieve high selectivity, these reactions need to be suppressed. In our study, we introduce heteroatom doped carbon materials as catalyst supports providing high selectivity. Heteroatom doping with nitrogen and oxygen was achieved by treating activated carbon with HNO 3 , NH 3 and H 2 or carbonization of organic precursors. For all N‐doped materials a high glycol selectivity of 80 % for sorbitol and xylitol and 44 % for xylose and glucose was reached. XPS analysis confirms the presence of different nitrogen species at the carbon surface and varying ligand effects for oxygen and nitrogen. Oxygen has an electron withdrawing effect on ruthenium and leads to a decreased activity. Nitrogen has weaker electron withdrawing properties, resulting in an enhanced selectivity.

Topics & Concepts

ChemistryDecarbonylationXylitolHydrogenolysisDeoxygenationSelectivityCatalysisXyloseSugar alcoholInorganic chemistryHeteroatomRutheniumOrganic chemistryCarbon fibersSorbitolSugarMaterials scienceComposite numberComposite materialRing (chemistry)FermentationCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsCatalysis for Biomass Conversion
Ru on N‐doped Carbon for the Selective Hydrogenolysis of Sugars and Sugar Alcohols | Litcius