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Issue
Korean Journal of Chemical Engineering,
Vol.36, No.7, 1042-1050, 2019
Optimization of fructose dehydration to 5-hydroxymethylfurfural catalyzed by SO3H-bearing lignin-derived ordered mesoporous carbon
Wang S, Lyu L, Sima G, Cui Y, Li B, Zhang X, Gan L
A sulfonated lignin-derived mesoporous carbon (LDMC-SO3H) was prepared from kraft lignin (KL) using phenolation and soft-template method followed by sulfonation. LDMC-SO3H bearing a sulfonic acid density of 0.65 mmol/g possessed a well-ordered 2D hexagonal mesoporous characteristics with mesopore volume of 0.067 cm3/g and specific surface area of 262m2/g as well as mesopore size of 3.42 nm. A high 5-hydroxymethylfurfural (5-HMF) yield of 98.0% with a full fructose conversion was obtained using LDMC-SO3H as catalyst under the optimized reaction conditions of reaction temperature and time of 140 °C and 120 min, initial fructose concentration of 100 g/L, catalyst load of 0.1mg/mg in DMSO. Furthermore, there was no obvious decrease in 5-HMF yield (≥ 95.0%) within the fivecycle experiment, highlighting the superior reusability and stability of LDMC-SO3H in fructose-to-5-HMF transformation.
Keywords: Kraft Lignin; Soft-template Method; Ordered Mesoporous Carbon; Solid Acid; 5-Hydroxymethylfurfural
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