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Solar-Driven Cellulose Photorefining into Arabinose over Oxygen-Doped Carbon Nitride

Jiu Wang, Qi Zhao, Pawan Kumar, Heng Zhao, Liquan Jing, Devis Di Tommaso, Rachel Crespo‐Otero, Md Golam Kibria, Jinguang Hu

2024ACS Catalysis45 citationsDOIOpen Access PDF

Abstract

Biomass photorefining is a promising strategy to address the energy crisis and transition toward carbon carbon-neutral society. Here, we demonstrate the feasibility of direct cellulose photorefining into arabinose by a rationally designed oxygen-doped polymeric carbon nitride, which generates favorable oxidative species (e.g., O 2 –, • OH) for selective oxidative reactions at neutral conditions. In addition, we also illustrate the mechanism of the photocatalytic cellulose to arabinose conversion by density functional theory calculations. The oxygen insertion derived from oxidative radicals at the C1 position of glucose within cellulose leads to oxidative cleavage of β-1,4 glycosidic linkages, resulting in the subsequent gluconic acid formation. The following decarboxylation process of gluconic acid via C1–C2 α-scissions, triggered by surface oxygen-doped active sites, generates arabinose and formic acid, respectively. This work not only offers a mechanistic understanding of cellulose photorefining to arabinose but also sets up an example for illuminating the path toward direct cellulose photorefining into value-added bioproducts under mild conditions.

Topics & Concepts

CelluloseChemistryArabinoseOxygenFormic acidOxidative phosphorylationRadicalCarbon fibersOrganic chemistryMaterials scienceBiochemistryXyloseFermentationComposite numberComposite materialCatalysis for Biomass ConversionAdvanced Photocatalysis TechniquesTiO2 Photocatalysis and Solar Cells