通过磺化石墨和生物催化剂的顺序催化提高竹笋壳向糠醇和糠胺的转化率。

Improved conversion of bamboo shoot shells to furfuryl alcohol and furfurylamine by a sequential catalysis with sulfonated graphite and biocatalysts.

作者信息

Feng Xiao-Qing, Li Yuan-Yuan, Ma Cui-Luan, Xia Yan, He Yu-Cai

机构信息

Biomass and Bioenergy Laboratory, School of Pharmacy, Changzhou University Changzhou P. R. China

State Key Laboratory of Biocatalysis and Enzyme Engineering, School of Life Sciences, Hubei University Wuhan P. R. China.

出版信息

RSC Adv. 2020 Nov 6;10(66):40365-40372. doi: 10.1039/d0ra07372e. eCollection 2020 Nov 2.

DOI:10.1039/d0ra07372e

PMID:35520828

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9057514/

Abstract

Furfurylamine and furfuryl alcohol are known as important furfural-upgrading derivatives in the production of pharmaceuticals, fibers, additives, polymers, In a one-pot manner, the catalysis of biomass into furan-based chemicals was established in a tandem reaction with sulfonated Sn-graphite catalysts and biocatalysts. Using a raw bamboo shoot shell (75.0 g L) as the feedstock, a high furfural yield of 41.1% (based on xylan) was obtained using the heterogeneous Sn-graphite catalyst (3.6 wt% dosage) in water (pH 1.0) for 30 min at 180 °C. Under the optimum bioreaction conditions, the biomass-derived furfural could be transformed into furfuryl alcohol (0.310 g furfuryl alcohol per g xylan in biomass) by a reductase biocatalyst or furfurylamine (0.305 g furfurylamine per g xylan in biomass) using an ω-transaminase biocatalyst. Such one-pot chemoenzymatic processes combined the merits of both heterogeneous catalysts and biocatalysts, and sustainable processes were successfully constructed for synthesizing key bio-based furans.

摘要

糠胺和糠醇是制药、纤维、添加剂、聚合物生产中重要的糠醛升级衍生物。通过磺化锡-石墨催化剂和生物催化剂的串联反应，以一锅法实现了生物质催化转化为呋喃基化学品。以竹笋壳（75.0 g/L）为原料，在水（pH 1.0）中，使用非均相锡-石墨催化剂（用量3.6 wt%），于180℃反应30分钟，获得了基于木聚糖的41.1%的高糠醛产率。在最佳生物反应条件下，生物质衍生的糠醛可通过还原酶生物催化剂转化为糠醇（每克生物质木聚糖生成0.310克糠醇），或使用ω-转氨酶生物催化剂转化为糠胺（每克生物质木聚糖生成0.305克糠胺）。这种一锅法化学酶促过程结合了非均相催化剂和生物催化剂的优点，成功构建了用于合成关键生物基呋喃的可持续过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b74/9057514/2e36f1b9341a/d0ra07372e-f1.jpg

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通过磺化石墨和生物催化剂的顺序催化提高竹笋壳向糠醇和糠胺的转化率。

Improved conversion of bamboo shoot shells to furfuryl alcohol and furfurylamine by a sequential catalysis with sulfonated graphite and biocatalysts.

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