Haitao Yu, Yang Wang, Chuanyu Yan, Dongkun Yu*, Lan Chen, Qilu Hu, Yiting Yao, Tiancheng Mu* and Zhimin Xue*,
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引用次数: 0
摘要
利用深共晶溶剂(DES)提取木质素是一种极具吸引力的生物质升级策略。虽然酸性 DESs 已得到广泛研究,但碱性 DESs(ADESs)却很少应用于木质素提取。本文制备了几种有望用于木质素溶解和生物质预处理的 ADES。木质素溶解度与 Kamlet-Taft 参数和所制备 ADES 的碱性呈良好的正相关。值得注意的是,60 °C时,碱木素(AL)、酶水解木素(EHL)、牛皮纸木素(KL)和脱碱木素(DAL)在ADES中的最高溶解度分别可达49.85、49.46、53.14和53.17 wt %。重要的是,制备的 ADES 能在 120 °C 下高效去除玉米秸秆中的木质素(80.9-97.8%),显著提高了残留物的酶解效率(71.5-85.4%)。此外,还能成功生成结构相对完整的木质素或分子量低、分散性好的木质素片段。这些结果证实了 ADES 在生物质升级方面的巨大潜力。
Boosting Lignin Dissolution and Biomass Fractionation by Innovative Alkaline Deep Eutectic Solvents
Utilization of deep eutectic solvents (DESs) to extract lignin is a highly attractive strategy for biomass upgrading. Although acidic DESs have been extensively investigated, alkaline DESs (ADESs) have rarely been applied in lignin extraction. Herein, several promising ADESs were prepared for lignin dissolution and biomass pretreatment. Lignin solubility showed a good positive correlation with the Kamlet–Taft parameters and the basicities of the prepared ADESs. Notably, the highest solubility of alkali lignin (AL), enzymatically hydrolyzed lignin (EHL), kraft lignin (KL), and dealkaline lignin (DAL) could reach 49.85, 49.46, 53.14, and 53.17 wt % in ADESs at 60 °C, respectively. Importantly, the prepared ADESs could efficiently remove lignin (80.9–97.8%) from corn stover at 120 °C, significantly improving the enzymatic efficiencies of the residues (71.5–85.4%). Besides, lignin with relatively intact structures or lignin fragments with low molecular weight and good dispersion could be successfully generated. These results confirmed the great potential of ADESs for biomass upgrading.
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