| [1] | ZHANG Quanguo, HU Jianjun, LEE Duujong. Pretreatment of biomass using ionic liquids: research updates [J]. Renewable Energy, 2017, 111: 77 − 84. |
| [2] | HU Jianjun, ZHANG Quanguo, JING Yanyan et al. Photosynthetic hydrogen production from enzyme-hydrolyzed micro-grinded maize straws [J]. Int J Hydrogen Energy, 2016, 41(46): 21665 − 21669. |
| [3] | KAN Xiang, YAO Zhiyi, ZHANG Jingxin, et al. Energy performance of an integrated bio-and-thermal hybrid system for lignocellulosic biomass waste treatment [J]. Bioresour Technol, 2017, 228: 77 − 88. |
| [4] | KASSAYE S, PANT K K, JALIN S. Hydrolysis of cellulosic bamboo biomass into reducing sugars via a combined alkaline solution and ionic liquid pretreatment steps [J]. Renewable Energy, 2017, 104: 177 − 184. |
| [5] | RALPH J, MARITA J, RALPH S, et al. Solution-state NMR of lignins[M]// ARGYROPOULOS D, RIALS T. Advances in Lignocellulosic Characterization, Atlanta: TAPPI Press, 1999: 55 − 108. |
| [6] | RALPH J, MACKAY J J, HATFIELD R D, et al. Abnormal lignin in a loblolly pine mutant [J]. Science, 1997, 277(5323): 235 − 239. |
| [7] | YOO C G, PU Y, RAGAUSKAS A J, et al. Ionic liquids: promising green solvents for lignocellulosic biomass utilization [J]. Curr Opin Green Sustainable Chem, 2017, 5: 5 − 11. |
| [8] | ANDRE M, KAREN G, ANA C, et al. Ionic liquids as a tool for lignocellulosic biomass fractionation [J]. Sustainable Chem Processes, 2013, 1: 3 − 33. |
| [9] | WANG Hui, GURAU G, ROGERS R D. Dissolution of biomass using ionic liquids[J] Struct Bonding, 2013, 151: 79 − 105. |
| [10] | CATARINA F, FILIPA L, BERNARDO D R, et al. Deep eutectic solvents: overcoming 21st century challenges [J]. Curr Opin Green Sustainable Chem, 2019, 18: 31 − 36. |
| [11] | SJÖHOLM E, GUSTAFSSON K, PETTERSSON B, et al. Characterization of the cellulosic residues from lithium chloride/ N, N-dimethylacetamide dissolution of softwood kraft pulp [J]. Carbohydr Polym, 1997, 32(1): 57 − 63. |
| [12] | YANAGISAWA M, SHIBATA I, ISOGAI A. SEC-MALLS analysis of softwood kraft pulp using LiCl/1, 3-dimethyl-2-imidazolidinone as an eluent [J]. Cellulose, 2005, 12(2): 151 − 158. |
| [13] | BERTHOLD F, GUSTAFSSON K, BERGGREN R, et al. Dissolution of softwood kraft pulps by direct derivatization in lithium chloride/N, N dimethylacetamide [J]. J Appl Polym Sci, 2004, 94(2): 424 − 431. |
| [14] | HAN Shaoqin, LI Jialin, ZHU Shengdong, et al. Potential applications of ionic liquids in wood related industries [J]. Bioresources, 2009, 4(2): 825 − 834. |
| [15] | YAMAMOTO M, KURAMAE R, YANAGISAWA M, et al. Light-scattering analysis of native wood holocelluloses totally dissolved in LiCl-DMI solutions: high probability of branched structures in inherent cellulose [J]. Biomacromolecules, 2011, 12(11): 3982 − 3988. |
| [16] | TAKARAGI A, MINODA M, MIYAMOTO T, et al. Reaction characteristics of cellulose in the LiCl/1,3-dimethyl-2-imidazolidinone solvent system [J]. Cellulose, 1999, 6: 93 − 102. |
| [17] | MCCORMICK C L, DAWSEY T R. Preparation of cellulose derivatives via ring-opening reactions with cyclic reagents in lithium chloride/N, N-dimethylacetamide [J]. Macromolecules, 1990, 23(15): 3606 − 3610. |
| [18] | RAHN K, DIAMANTOGLOU M, BERGHMANS H, et al. Homogeneous synthesis of cellulose p-toluenesulfonates in N, N-dimethylacetamide/LiCl solvent system [J]. Die Angewandte Makromolecules Chemie, 1996, 238(1): 143 − 163. |
| [19] | YANAGISAWA M, ISOGAI A. Size exclusion chromatographic and UV-VIS absorption analyses of unbleached and bleached softwood kraft pulps using LiCl/1,3-dimethyl-2-imidazolidinone as a solvent [J]. Holzforschung, 2007, 61(3): 236 − 241. |
| [20] | PETRUŠ L, GRAY D G, BEMILLER J N. Homogeneous alkylation of cellulose in lithium chloride/dimethyl sulfoxide solvent with dimsyl sodium activation, a proposal for the mechanism of cellulose dissolution in LiCl/Me2SO [J]. Carbohydr Res, 1995, 268(2): 319 − 323. |
| [21] | ZHANG Xueqin, CHEN Mingjie, LIU Chuanfu, et al. Dual-component system dimethyl sulfoxide/LiCl as a solvent and catalyst for homogeneous ring-opening grafted polymerization of epsilon-caprolactone onto xylan [J]. J Agric Food Chem, 2014, 62(3): 682 − 690. |
| [22] | WANG Zhiguo, YOKOYAMA T, CHANG Houmin, et al. Dissolution of beech and spruce milled woods in LiCl/DMSO [J]. J Agric Food Chem, 2009, 57(14): 6167 − 6170. |
| [23] | 吴文娟, 闫雪晴, 邹春阳, 等. 基于全溶体系的毛竹竹材木质素分离方法[J]. 浙江农林大学学报, 2020, 37(2): 335 − 342. WU Wenjuan, YAN Xueqing, ZOU Chunyang, et al. A isolation method of lignin from bamboo based on complete dissolution [J]. J Zhejiang A&F Univ, 2020, 37(2): 335 − 342. |
| [24] | GU Feng, WU Wenjuan, WANG Zhiguo, et al. Effect of complete dissolution in LiCl/DMSO on the isolation and characteristics of lignin from wheat straw internode [J]. Ind Crops Prod, 2015, 74: 703 − 711. |
| [25] | DENCE C W, LIN S Y. Introduction in methods in lignin chemistry[M]//LIN S Y, DENCE C W. Methods in Lignin Chemistry. Berlin: Springer Verlag Press, 1992: 31 − 66. |
| [26] | BORCHARDT L G, PIPER C V. A gas chromatographic method for carbohydrates as alditol-acetates [J]. TAPPI, 1970, 53: 257 − 260. |
| [27] | CHEN C L. Nitrobenzene and cupric oxide oxidations in methods in lignin chemistry[M]// LIN S Y, DENCE C W. Methods in Lignin Chemistry. Berlin: Springer-Verlag Press, 1992: 301 − 321. |
| [28] | SEGAL L, CREELY J J, MARTIN A E, et al. An empirical method for estimating the degree of crystallinity of native cellulose using the X-ray diffractometer [J]. Textile Res J, 1959, 29(10): 786 − 794. |
| [29] | 荆磊, 金永灿, 张厚民, 等. 自水解预处理对稻草化学成分及酶解性能的影响[J]. 纤维素科学与技术, 2010, 18(2): 1 − 10. JING Lei, JIN Yongcan, ZHANG Houmin, et al. Effects of auto-hydrolysis of rice straw on its chemical composition and enzymatic hydrolysis [J]. J Cellul Sci Technol, 2010, 18(2): 1 − 10. |
| [30] | FUJIMOTO A, MATSUMOTO Y, CHANG H M, et al. Quantitative evaluation of milling effects on lignin structure during the isolation process of milled wood lignin [J]. J Wood Sci, 2005, 51(1): 89 − 91. |
| [31] | HU Zhoujian, YEH Tingfeng, CHANG Houmin, et al. Elucidation of the structure of cellulolytic enzyme lignin [J]. Holzforschung, 2006, 60(4): 389 − 397. |
| [32] | MIN D Y, JAMEEL H, CHANG H M, et al. The structural changes of lignin and lignin-carbohydrate complexes in corn stover induced by mild sodium hydroxide treatment [J]. RCS Adv, 2014, 4(21): 10845 − 10850. |
| [33] | IKEDA T, HOLTMAN K, KADLA J F, et al. Studies on the effect of ball milling on lignin structure using a modified DFRC method [J]. J Agric Food Chem, 2002, 50(1): 129 − 135. |
| [34] | GHAFFAR S H, FAN M Z. Structural analysis for lignin characteristics in biomass straw [J]. Biomass Bioenergy, 2013, 57: 264 − 279. |
| [35] | TAN Xuesong, ZHANG Quan, WANG Wen, et al. Comparison study of organosolv pretreatment on hybrid pennisetum for enzymatic saccharification and lignin isolation [J]. Fuel, 2019, 249(1): 334 − 340. |
| [36] | DASH M, MOHANTY K. Effect of different ionic liquids and anti-solvents on dissolution and regeneration of Miscanthus towards bioethanol [J]. Biomass Bioenergy, 2019, 124: 33 − 42. |