Hydrolysis of cellulose to glucose in aqueous phase with phosphate group modified hydroxy-rich carbon-based catalyst

By catalytically converting cellulose using a phosphate-modified hydroxyl-rich carbon-based catalyst (P@HRCBC), which was made by hydrothermal carbonization, glucose was successfully hydrolyzed from cellulose in an aqueous phase system (HTC). The glycosidic bond breaking catalyzed by the -PO3H2 and...

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Bibliographic Details
Published in:Carbon (New York) 2023-03, Vol.206, p.72-83
Main Authors: Dai, Yuewen, Geng, Maofu, Tao, Yuhong, Zhang, Zhenyu, Feng, Chengqi, Huang, Juncheng, Liu, Fei, Na, Haining, Zhu, Jin
Format: Article
Language:English
Subjects:
Catalyst
Cellulose
Enzyme-like
Hydrolysis
Phosphoric acid
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Summary:By catalytically converting cellulose using a phosphate-modified hydroxyl-rich carbon-based catalyst (P@HRCBC), which was made by hydrothermal carbonization, glucose was successfully hydrolyzed from cellulose in an aqueous phase system (HTC). The glycosidic bond breaking catalyzed by the -PO3H2 and the cellulose matrix lamellar exfoliation are both enhanced by the excellent adsorption capacity of the exceptionally rich –OH. The activity of cellulase is perfectly imitated. Within 120 min, the glucose output and the conversion of cellulose achieved 96.3% and 47.1%, respectively. The numerous ways that P@HRCBC adsorbs cellulose and cellobiose alter its catalytic ability and make separating glucose easier. After numerous cycles, the conversion of cellulose was maintained at 90.3%, thanks to the remarkable stability of –OH and -PO3H2. P@HRCBC shows an actual "enzymatic" catalytic function that provides a new solution for the efficient green hydrolysis of cellulose into glucose. [Display omitted] •Hydrothermal reaction successfully used for the preparation of P@HRCBC.•The -PO3H2 was successfully introduced into P@HEGCS.•Sugars are obtained from the catalytic hydrolysis of cellulose in a recyclable P@HEGCS system.•P@HRCBC exerts enzyme-like catalytic properties.
ISSN:0008-6223
DOI:10.1016/j.carbon.2023.02.006