Download This PaperAn Sn-Lignosulfonate Catalyst for the Dehydration of Xylose into Furfural in a Biphasic System
34 Pages Posted: 15 Oct 2024
Abstract
It is highly attractive for the catalysts prepared from renewable materials and/or industrial by-products. Herein, lignosulfonate(LS) as the by-product in the papermaking industry was utilized to fabricate Sn-containing organic-inorganic complexing catalysts (Sn(x)@LS) by a simple hydrothermal self-assembly process. The fabricated Sn(x)@LS played an excellent performance in the dehydration of xylose into furfural in the carbon tetrachloride (CTC)/water biphasic system, yielding 78.5% furfural at 180 ℃ for 60 min. It was revealed that strong coordination between Sn4+ and the phenolic hydroxyl groups of LS created a robust organic-inorganic skeleton (-Ar-O-Sn-O-Ar-), simultaneously generating potent Lewis acid sites, and sulfonic acid groups of LS acted as Brønsted acidic sites. Gromacs simulations verified that CTC did not form hydrogen bonds with xylose, which may reduce xylose consumption. The CTC phase effectively extracted furfural, thereby preventing its side reactions throughout the entire process. In addition, Sn(x)@LS exhibited excellent cyclic stability in at least five reaction cycles with only a 5.04% decrease in furfural yield. Thus, this work will give a new window for the catalysts prepared from lignosulfonate as the industrial by-products in the production of platform chemicals, which is a sustainable chemical conversion process.
Keywords: Lignosulfonates, Heterogeneous catalysis, Xylose dehydration, Furfural
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