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Abstract
Herein, we report the catalytic use
of multifunctional CuO nanoparticles (NPs) to oxidatively fractionate
lignocellulosic feedstock with dioxygen in aqueous NaOH under mild conditions . In presence of CuO NPs,
lignocellulose is fractionated into three parts, overall yielding 90% carbon
efficiency. Lignin is converted to up to 45.6 wt% in organic soluble aromatic aldehyde
monomers, rich in vanillin and syringaldehyde, the value surpassing the theoretical
one based on b-O-4 bond content, indicating significant
cleavage of other ether bonds. All hemicellulose is selectively converted into water
soluble small (di)acids, mainly to oxalic acid. Up to 81% of cellulose, in
contrast, is obtained as a white crystalline residue with high cellulose purity
(over 95%), which can readily be transformed into high quality nanocellulose,
useful in many applications.
