A Pathway for Sugar Production from Agricultural Waste Catalyzed by Sulfonated Magnetic Carbon Microspheres
Maoru Xu, Yanfeng Duan, Hongfu Li, Shoulin He, Xingyu Zi, Yanting Zhao, Cheng Jiao, Xiaoyun Li

TL;DR
This paper presents a new green method using magnetic carbon microspheres to convert agricultural waste into valuable sugars efficiently.
Contribution
A novel magnetic carbon microsphere catalyst is developed for efficient sugar production from agricultural waste.
Findings
Hydroxyethyl sulfonic acid sulfonation catalyst achieved 76.67% pentose yield from rice straw.
Optimal conditions included 0.04 g straw, 0.04 g catalyst, and a H2O/γ-valerolactone ratio of 8:2.
The catalyst can be effectively separated from the reaction residue, enhancing reusability.
Abstract
Lignocellulose is an important renewable biomass resource. However, at present, there is a lack of efficient and environmentally friendly catalytic systems that can selectively convert lignocellulose components into high-value sugars, and the value realization of agricultural waste (such as straw) remains challenging. Carbon-based solid acids are used in the valorization of biomass due to their simple preparation and excellent catalytic performance. In this study, the magnetic carbon microspheres catalyst was prepared using concentrated sulfuric acid and hydroxyethyl sulfonic acid as sulfonating agents. Two sulfonation catalysts were applied to the hydrolysis of typical agricultural waste (rice straw). The performance of catalyst conversion to reducing sugar was compared, and the glucose yield was lower than 30%. The sulfonation catalyst of hydroxyethyl sulfonic acid obtained a higher…
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Taxonomy
TopicsCatalysis for Biomass Conversion · Biofuel production and bioconversion · Catalysis and Hydrodesulfurization Studies
