Publication | Closed Access
High value utilization of biomass: selective catalytic transformation of lignocellulose into bio-based 2,5-dimethylphenol
19
Citations
30
References
2022
Year
EngineeringBioenergySelective HydroxylationOrganic ChemistryLignin ChemistryChemical EngineeringBiomass ConversionBiochemical EngineeringSustainable SynthesisLignocellulose Catalytic PyrolysisBiomassPlatform ChemicalHealth SciencesBiomass UtilizationBiocatalysisCatalysisBiomolecular EngineeringCatalytic SynthesisBiomass ResourceHigh-value Biochemical 2,5-DimethylphenolSelective Catalytic TransformationHigh Value UtilizationSynthetic Chemistry
A new strategy for the synthesis of high-value biochemical 2,5-dimethylphenol was constructed by lignocellulose catalytic pyrolysis and selective hydroxylation.
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