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·116· 精细化工 FINE CHEMICALS 第 40 卷

Bet/LA 两种 DES 的木质素提取率分别为 77.87%和 (化工进展), 2017, 36(8): 2910-2915.
[13] SLUITER A, HAMES B, RUIZ R, et al. Determination of structural
59.49%，Bet/LA 分离木质素结构中羟基相对含量高
carbohydrates and lignin in biomass[J]. Laboratory Analytical
于 TEBAC/LA 分离木质素。TEBAC/LA 的 M w 可达 Procedure, 2008, 1617: 1-16.
44973，而 Bet/LA 的 M w 仅为 14488，且 Bet/LA 的 [14] LIU J K (刘金科), YANG G H (杨桂花), QI L T (齐乐天), et al.
Selective extraction of poplar pignin with choline-based deep
PDI 较小，说明其相对分子质量分布较窄，结构更 eutectic solvents[J]. China Pulp & Paper (中国造纸), 2020, 39(4):
均一。 1-9.
[15] MANKAR A R, PANDEY A, PANT K K. Microwave-assisted
（2）热解特性分析显示，两种 DES 分离的木质 extraction of lignin from coconut coir using deep eutectic solvents
素热失重温度、失重速率和热解产物存在较大差异， and its valorization to aromatics[J]. Bioresource Technology, 2022,
345: 126528.
热解产物主要为 CO 2 、CH 4 、醇类、醛类、酸类、 [16] ALVAREZ-VASCO C, MA R S, QUINTERO M, et al. Unique
芳香烃和苯酚等，TEBAC/LA 分离木质素热解产物 low-molecular-weight lignin with high purity extracted from wood
含量高于 Bet/LA 分离木质素。 by deep eutectic solvents (DES): A source of lignin for valorization[J].
Green Chemistry, 2016, 18(19): 5133-5141.
（3）Bet/LA 分离木质素抗氧化活性较强，优于 [17] LIU Y, ZHENG J Y, XIAO J X, et al. Enhanced enzymatic hydrolysis
TEBAC/LA 分离木质素，Bet/LA 分离木质素作为天 and lignin extraction of wheat straw by triethylbenzyl ammonium
chloride/lactic acid-based deep eutectic solvent pretreatment[J]. ACS
然抗氧化剂具有良好的 DPPH 自由基清除能力，为 Omega, 2019, 4(22): 19829-19839.
后期制备生物基抗氧化功能材料提供新来源。 [18] WANG S Z, SU S H, XIAO L P, et al. Catechyl lignin extracted from
castor seed coats using deep eutectic solvents: Characterization and
参考文献： depolymerization[J]. ACS Sustainable Chemistry & Engineering,
2020, 8(18): 7031-7038.
[1] XIA M L (夏美玲), WANG Y P (王允圃), ZHANG S M (张淑梅), [19] GUO Z W, ZHANG Q L, YOU T T, et al. Short-time deep eutectic
et al. Research progress on comprehensive utilization of Camellia solvent pretreatment for enhanced enzymatic saccharification and
oleifera abel shell[J]. Biomass Chemical Engineering (生物质化学 lignin valorization[J]. Green Chemistry, 2019, 21(11): 3099-3108.
工程), 2021, 55(6): 26-38. [20] TIAN D, CHANDRA R P, LEE J S, et al. A comparison of various
[2] CHEN P J (陈沛均), HU C S (胡传双), TU D Y (涂登云), et al. lignin-extraction methods to enhance the accessibility and ease of
Progress and prospect of comprehensive utilization of Camellia enzymatic hydrolysis of the cellulosic component of steam-pretreated
oleifera shells[J]. China Forest Products Industry (林产工业), 2021, poplar[J]. Biotechnology for Biofuels, 2017, 10: 157.
58(5): 60-64. [21] KUMAR A K, PARIKH B S, PRAVAKAR M. Natural deep eutectic
[3] AHMAD U M, JI N, LI H Y, et al. Can lignin be transformed into solvent mediated pretreatment of rice straw: Bioanalytical characterization
agrochemicals? Recent advances in the agricultural applications of of lignin extract and enzymatic hydrolysis of pretreated biomass
lignin[J]. Industrial Crops and Products, 2021, 170: 113646. residue[J]. Environmental Science and Pollution Research, 2016,
[4] PANG T R, WANG G H, SUN H, et al. Lignin fractionation: Effective 23(10): 9265-9275.
strategy to reduce molecule weight dependent heterogeneity for [22] JIN C D (金春德), YANG W (杨巍), HAN S J (韩申杰), et al.
upgraded lignin valorization[J]. Industrial Crops and Products, 2021, Change rule of the lignin in the manufacture process of the binder
165: 113442. less fiberboard used wood fiber by the acidic steam steaming
[5] CHENG P (程鹏), GUO Z W (郭宗伟), XU Y L (许阳蕾), et al. hot-milling method[J]. Journal of Northeast Forestry University (东
Mild and efficient fractionation of moso bamboo lignin based on 北林业大学学报), 2014, 42(4): 89-92.
formic acid/guanidine hydrochloride deep eutectic solvent[J]. Fine [23] CUI X K (崔兴凯), CHEN K (陈可), ZHAO X B (赵雪冰), et al.
Chemicals (精细化工), 2022, 39(2): 345-351. Structures of several lignins isolated from sugarcane bagasse and
[6] WANG L, LI X H, JIANG J G, et al. Revealing structural and their effects on enzymatic hydrolysis of cellulose[J]. The Chinese Journal
functional specificity of lignin from tobacco stalk during deep of Process Engineering (过程工程学报), 2017, 17(5): 1002-1010.
eutectic solvents deconstruction aiming to targeted valorization[J]. [24] SKULCOVA A, MAJOVA V, KOHUTOVA M, et al. UV/Vis
Industrial Crops and Products, 2022, 180: 114696. spectrometry as a quantification tool for lignin solubilized in deep
[7] ZHANG C W, XIA S Q, MA P S. Facile pretreatment of lignocellulosic eutectic solvents[J]. BioResources, 2017, 12(3): 6713-6722.
biomass using deep eutectic solvents[J]. Bioresource Technology, [25] ZHOU Q (周强), WANG X W (王秀文), SHEN D K (沈德魁).
2016, 219: 1-5. Thermal decomposition of klason lignin from different biomass by
[8] ZHOU M, FAKAYODE O A, YAGOUB A E A, et al. Lignin TG-FTIR[J]. Acta Energiae Solaris Sinica (太阳能学报), 2016,
fractionation from lignocellulosic biomass using deep eutectic 37(9): 2236-2242.
solvents and its valorization[J]. Renewable and Sustainable Energy [26] WANG D L (王东玲), WANG W J (王文锦), PENG Z F (彭梓芳), et
Reviews, 2022, 156: 111986. al. Structure characterization of pine lignin extracted by different
[9] XU J Y, LI C Y, DAI L, et al. Biomass fractionation and lignin alcohol solvents[J]. CIESC Journal ( 化工学报 ), 2020, 71(8):
fractionation towards lignin valorization[J]. ChemSusChem, 2020, 3761-3769.
13(17): 4284-4295. [27] PIN T C, NASCIMENTO V M, COSTA A C, et al. Structural
[10] LIU J (刘钧), WANG J (王菊), YUE Y Y (岳莺莺), et al. Solubility characterization of sugarcane lignins extracted from different protic
selectivity for lignin of eucalyptus in deep eutectic solvents[J]. Fine ionic liquid pretreatments[J]. Renewable Energy, 2020, 161: 579-592.
Chemicals (精细化工), 2016, 33(11): 1287-1294. [28] BRANDT A, CHEN L, VAN DONGEN B E, et al. Structural
[11] ABRANCHES D O, SILVA L P, MARTINS M A R, et al. changes in lignins isolated using an acidic ionic liquid water
Understanding the formation of deep eutectic solvents: Betaine as a mixture[J]. Green Chemistry, 2015, 17(11): 5019-5034.
universal hydrogen bond acceptor[J]. ChemSusChem, 2020, 13(18): [29] POPOVA Y A, SHESTAKOV S L, BELESOV A V, et al.
4916-4921. Comprehensive analysis of the chemical structure of lignin from
[12] CUI X K (崔兴凯), ZHAO X B (赵雪冰), LIU D H (刘德华). raspberry stalks (Rubus idaeus L.)[J]. International Journal of
Pyrolysis characteristics and kinetics of five isolated lignins from Biological Macromolecules, 2020, 164: 3814-3822.
sugarcane bagasse[J]. Chemical Industry and Engineering Progress （下转第 168 页）

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