一步合成深共晶溶剂并溶解其牛皮纸木质素

IF 0.9 Q4 CHEMISTRY, MULTIDISCIPLINARY
Omar Merino Pérez, Ricardo Cerón-Camacho, Rafael Martinez Palou
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引用次数: 0

摘要

木质素是一种非常丰富的生物聚合物,具有生产其他带有芳香基团的高价值聚合物的巨大潜力。木质素在传统有机溶剂中的溶解度较低,使其难以解构或转化为其他具有更高附加值的产品,从而限制了其价值的提升。在这项工作中,我们介绍了制备各种深共晶溶剂的一锅程序,并研究了它们在微波介电加热的帮助下高效溶解牛皮纸木质素的能力。木质素是一种广泛存在的芳香族生物聚合物,在造纸过程中分离出来后大多被丢弃或用作低价值燃料,因此研究人员致力于开发木质素溶解工艺,使其易于解构并转化为其他具有更高附加值的产品。本研究开发了一种简单、快速、高效的溶解木质素的方法,使用深共晶溶剂/乙腈作为溶剂,并通过介质微波加热进行辐照。所研究的大多数 DES 通过使用微波辐照作为加热方法,实现了用普通有机溶剂大量溶解所购买的木质素。这项工作中研究的一些 DESs 是木质素溶剂的良好替代品,因为这些溶剂可从生物质中的可再生前体(如甘油醇、氯化胆碱和尿素)中简单制备,毒性低且成本低。这些系统的有效性似乎是基于组成共晶的三种物质与木质素羟基之间的氢键相互作用所产生的分子识别。这些溶剂可以回收和循环使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
One-step Synthesis of Deep Eutectic Solvents and dissolution of their Kraft Lignin
Lignin is a very abundant biopolymer with great potential to produce other high-value polymers with aromatic groups. Its valorization has been limited principally by its poor solubility in conventional organic solvents, which makes it difficult to deconstruct or transform it into other products with higher added value. In this work, we describe a one-pot procedure to prepare vari-ous Deep Eutectic Solvents and study their ability to dissolve Kraft lignin with the aid of micro-wave dielectric heating efficiently. Lignin is a widely available aromatic biopolymer that is largely discarded or used as a low-value fuel when separated in paper production processes, so researchers are engaged in the development of lignin dissolution processes that allow its easy deconstruction and transfor-mation into other products with higher added value. The main objective of this work is to find deep eutectic solvents capable of dissolving significant quantities of lignin with the aid of microwaves as a heating source. The present work developed a simple, fast, and efficient method to dissolve lignin using Deep Eutectic Solvent/acetonitrile as solvents and irradiation by dielectric microwave heating. Most of the DESs studied achieved significant dissolution of purchased lignin with com-mon organic solvents by employing microwave irradiation as the heating method. Some DESs studied in this work are good alternatives as solvents for lignin due to the solvent option of simple preparation from renewable precursors from biomass, such as glyc-erol, choline chloride, and urea, of low toxicity and cost for this application. The effectiveness of these systems appears to be based on molecular recognition by hydrogen bonding interactions involving the three species that make up the eutectic and the hydroxyl groups of the lignin. These solvents can be recovered and recycled.
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来源期刊
Current Microwave Chemistry
Current Microwave Chemistry CHEMISTRY, MULTIDISCIPLINARY-
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