通过连续流超临界水处理从桦木中高产率分离富含β-O-4的木质素

Isolation of β-O-4-Rich Lignin From Birch in High Yields Enabled by Continuous-Flow Supercritical Water Treatment.

作者信息

Rigo Davide, Fechter Tijana, Capanema Ewellyn, Diment Daryna, Alopaeus Marie, Tarasov Dmitry, Cantero Danilo, Balakshin Mikhail

机构信息

Department of Bioproducts and Biosystems, Aalto University, Vuorimiehentie 1, Espoo, 02150 E-mail, Finland.

The Institute of Bioeconomy. Calle Dr Mergelina S/N, Department of Chemical Engineering and Environmental Technology, University of Valladolid, 47011, Valladolid, Spain.

出版信息

ChemSusChem. 2025 Jan 2;18(1):e202401683. doi: 10.1002/cssc.202401683. Epub 2024 Nov 6.

DOI:10.1002/cssc.202401683

PMID:39316656

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11696213/

Abstract

The continuous flow supercritical water (scHO) treatment of Birch wood (T=372-382 °C; t=0.3-0.7 s; p=260 bar) followed by alkali extraction of lignin allowed for the isolation of lignin and lignin carbohydrate complexes (LCCs) with a high number of β-O-4 moieties in the range 29-57/100 Ar (evaluated by quantitative C NMR analysis) in yields ranging between 13-19 wt % with respect to the initial wood. A "lightning rod effect" of carbohydrates has been claimed to explain the low degradation of β-O-4 bonds during the process. The structure of the isolated lignin was thoroughly elucidated via comprehensive NMR studies (HSQC, C and P). A low degree of condensation (DC)<5 % was found for all the lignin samples, which was only slightly dependent on the reaction severity. The number of aliphatic -OH, phenolic -OH, and -COOH groups was in the range 3.37-5.25, 1.41-2.31 and 0.39-0.73 mmol/g, respectively. The number of -COOH groups increased with increased severity, suggesting that oxidation can occur during the scHO treatment. Furthermore, by simply varying the reaction severity, it was possible to tune important lignin properties, like the molar mass and the glass transition temperature (T).

摘要

对桦木进行连续流动超临界水（scHO）处理（温度T = 372 - 382°C；时间t = 0.3 - 0.7秒；压力p = 260巴），随后对木质素进行碱提取，从而能够分离出木质素和木质素碳水化合物复合物（LCCs），其中β - O - 4基团的数量较多，在29 - 57/100 Ar范围内（通过定量碳核磁共振分析评估），相对于初始木材，产率在13 - 19 wt%之间。有人声称碳水化合物的“避雷针效应”可以解释该过程中β - O - 4键的低降解率。通过全面的核磁共振研究（HSQC、碳谱和磷谱）对分离出的木质素结构进行了深入阐明。发现所有木质素样品的缩合度（DC）均<5%，且仅略微依赖于反应强度。脂肪族 - OH、酚类 - OH和 - COOH基团的数量分别在3.37 - 5.25、1.41 - 2.31和0.39 - 0.73 mmol/g范围内。 - COOH基团的数量随着反应强度的增加而增加，这表明在超临界水氧化处理过程中可能发生了氧化反应。此外，仅通过改变反应强度，就有可能调节重要的木质素性质，如摩尔质量和玻璃化转变温度（T）。

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通过连续流超临界水处理从桦木中高产率分离富含β-O-4的木质素

Isolation of β-O-4-Rich Lignin From Birch in High Yields Enabled by Continuous-Flow Supercritical Water Treatment.

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