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在离子液体氯化乙铵:乙二醇 - 水介质中通过混合策略由生物质高效合成糠胺。

Efficient synthesis of furfurylamine from biomass a hybrid strategy in an EaCl:Gly-water medium.

作者信息

He Wei, He Yu-Cai, Ye Jianren

机构信息

College of Biology and the Environment, Nanjing Forestry University, Nanjing, China.

School of Pharmacy, Changzhou University, Changzhou, China.

出版信息

Front Bioeng Biotechnol. 2023 Mar 16;11:1144787. doi: 10.3389/fbioe.2023.1144787. eCollection 2023.

Abstract

The objective of this work was to develop an efficient approach for chemoenzymatically transforming biomass to furfurylamine by bridging chemocatalysis and biocatalysis in a deep eutectic solvent of EaCl:Gly-water. Using hydroxyapatite (HAP) as support, heterogeneous catalyst SO /SnO-HAP was synthesized for transforming lignocellulosic biomass into furfural using organic acid as a co-catalyst. The turnover frequency (TOF) was correlated with the pKa value of the used organic acid. Corncob was transformed by oxalic acid (pKa = 1.25) (0.4 wt%) plus SO /SnO-HAP (2.0 wt%) to produce furfural with a yield of 48.2% and a TOF of 6.33 h in water. In deep eutectic solvent EaCl:Gly-water (1:2, v/v), co-catalysis with SO /SnO-HAP and oxalic acid was utilized to transform corncob, rice straw, reed leaf, and sugarcane bagasse for the production of furfural with the yield of 42.4%-59.3% (based on the xylan content) at 180°C after 10 min. The formed furfural could be efficiently aminated to furfurylamine with CCZU-XLS160 cells in the presence of NHCl (as an amine donor). As a result of the biological amination of furfural derived from corncob, rice straw, reed leaf, and sugarcane bagasse for 24 h, the yields of furfurylamine reached >99%, with a productivity of 0.31-0.43 g furfurylamine per g xylan. In EaCl:Gly-water, an efficient chemoenzymatic catalysis strategy was employed to valorize lignocellulosic biomass into valuable furan chemicals.

摘要

这项工作的目标是通过在EaCl:Gly-水的深共熔溶剂中桥接化学催化和生物催化,开发一种将生物质化学酶法转化为糠胺的有效方法。以羟基磷灰石(HAP)为载体,合成了非均相催化剂SO /SnO-HAP,以有机酸为助催化剂将木质纤维素生物质转化为糠醛。周转频率(TOF)与所用有机酸的pKa值相关。在水中,用草酸(pKa = 1.25)(0.4 wt%)加SO /SnO-HAP(2.0 wt%)转化玉米芯,糠醛产率为48.2%,TOF为6.33 h⁻¹。在深共熔溶剂EaCl:Gly-水(1:2,v/v)中,利用SO /SnO-HAP和草酸的共催化作用,在180℃下10分钟后转化玉米芯、稻草、芦苇叶和甘蔗渣,糠醛产率为42.4%-59.3%(基于木聚糖含量)。在NH₄Cl(作为胺供体)存在下,生成的糠醛可用CCZU-XLS160细胞有效地胺化为糠胺。由于对来自玉米芯、稻草、芦苇叶和甘蔗渣的糠醛进行24小时的生物胺化,糠胺产率达到>99%,每克木聚糖的糠胺生产率为0.31-0.43 g。在EaCl:Gly-水中,采用了一种有效的化学酶催化策略,将木质纤维素生物质转化为有价值的呋喃化学品。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a03a/10060961/e2158bc89bb9/FBIOE_fbioe-2023-1144787_wc_sch1.jpg

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