Recent Development in Chemical Depolymerization of Lignin: A Review

Hai Wang, M. Tucker, Yun Ji
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引用次数: 212

Abstract

This article reviewed recent development of chemical depolymerization of lignins. There were five types of treatment discussed, including base-catalyzed, acid-catalyzed, metallic catalyzed, ionic liquids-assisted, and supercritical fluids-assisted lignin depolymerizations. The methods employed in this research were described, and the important results were marked. Generally, base-catalyzed and acid-catalyzed methods were straightforward, but the selectivity was low. The severe reaction conditions (high pressure, high temperature, and extreme pH) resulted in requirement of specially designed reactors, which led to high costs of facility and handling. Ionic liquids, and supercritical fluids-assisted lignin depolymerizations had high selectivity, but the high costs of ionic liquids recycling and supercritical fluid facility limited their applications on commercial scale biomass treatment. Metallic catalyzed depolymerization had great advantages because of its high selectivity to certain monomeric compounds and much milder reaction condition than base-catalyzed or acid-catalyzed depolymerizations. It would be a great contribution to lignin conversion if appropriate catalysts were synthesized.
木质素化学解聚研究进展
本文综述了近年来木质素化学解聚的研究进展。讨论了五种处理方法,包括碱催化、酸催化、金属催化、离子液体辅助和超临界流体辅助木质素解聚。介绍了本研究所采用的方法,并对重要结果进行了标注。一般来说,碱催化和酸催化的方法是直接的,但选择性较低。恶劣的反应条件(高压、高温和极端pH值)导致需要特殊设计的反应器,这导致了高昂的设施和处理成本。离子液体和超临界流体辅助木质素解聚具有很高的选择性,但离子液体回收和超临界流体设施的高成本限制了它们在商业规模生物质处理中的应用。金属催化解聚对某些单体化合物的选择性高,反应条件比碱催化或酸催化解聚温和得多,具有很大的优势。如果能合成合适的催化剂,将对木质素转化有很大的促进作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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