[1] |
Ragauskas A J, Williams C K, Davison B H, et al. The path forward for biofuels and biomaterials [J]. Science, 2006, 311 (5760): 484-489
|
[2] |
Nishiyama Y, Langan P, Chanzy H. Crystal structure and hydrogen-bonding system in cellulose Iβ from synchrotron X-ray and neutron fiber diffraction [J]. Journal of American Chemical Society, 2002, 124 (31): 9074-9082
|
[3] |
Jarvis M. Chemistry: cellulose stacks up [J]. Nature, 2003, 426 (6967): 611-612
|
[4] |
Yu Y, Wu H. Significant differences in the hydrolysis behavior of amorphous and crystalline portions within microcrystalline cellulose in hot-compressed water [J]. Industrial & Engineering Chemistry Research, 2010, 49 (8): 3902-3909
|
[5] |
Broido A, Javier-Son A, Ouano A, Barrall E M. Molecular weight decrease in the early pyrolysis of crystalline and amorphous cellulose [J]. Journal of Applied Polymer Science, 1973, 17 (12): 3627-3635
|
[6] |
Bradbury A G, Sakai Y, Shafizadeh F. A kinetic model for pyrolysis of cellulose [J]. Journal of Applied Polymer Science, 1979, 23 (11): 3271-3280
|
[7] |
Yu Y, Liu D, Wu H. Characterization of water-soluble intermediates from slow pyrolysis of cellulose at low temperatures [J]. Energy & Fuels, 2012, 26 (12): 7331-7339
|
[8] |
Scheirs J, Camino G, Tumiatti W. Overview of water evolution during the thermal degradation of cellulose [J]. European Polymer Journal, 2001, 37 (5): 933-942
|
[9] |
Ye Daiyong (叶代勇), Huang Hong (黄洪), Fu Heqing (傅和青), Chen Huanqin (陈焕钦). Advances in cellulose chemistry [J]. Journal of Chemical Industry and Engineering (China) (化工学报), 2006, 57 (8): 1782-1791
|
[10] |
Chaiwat W, Hasegawa I, Tani T, Sunagawa K, Mae K. Analysis of cross-linking behavior during pyrolysis of cellulose for elucidating reaction pathway [J]. Energy & Fuels, 2009, 23 (12): 5765-5772
|
[11] |
Chaiwat W, Hasegawa I, Kori J, Mae K. Examination of degree of cross-linking for cellulose precursors pretreated with acid/hot water at low temperature [J]. Industrial & Engineering Chemistry Research, 2008, 47 (16): 5948-5956
|
[12] |
Mettler M S, Paulsen A D, Vlachos D G, Dauenhauer P J. Pyrolytic conversion of cellulose to fuels: levoglucosan deoxygenation via elimination and cyclization within molten biomass [J]. Energy & Environmental Science, 2012, 5 (7): 7864-7868
|
[13] |
Mettler M S, Mushrif S H, Paulsen A D, Javadekar A D. Revealing pyrolysis chemistry for biofuels production: conversion of cellulose to furans and small oxygenates [J]. Energy & Environmental Science, 2012, 5 (1): 5414-5424
|
[14] |
Sun Chengzhi (孙成志), Xie Guo'en (谢国恩), Ruan Xigen (阮锡根). The study of relative crystallinity of masson pine wood cellulose [J]. Scientia Silvae Sinicae (林业科学), 1984, 20 (3): 290-298
|
[15] |
Wei S, Kumar V, Banker G S. Phosphoric acid mediated depolymerization and decrystallization of cellulose: preparation of low crystallinity cellulose—a new pharmaceutical excipient [J]. International Journal of Pharmaceutics, 1996, 142 (2): 175-181
|
[16] |
Zhang J, Luo J, Tong D, Zhu L, Dong L, Hu C. The dependence of pyrolysis behavior on the crystal state of cellulose [J]. Carbohydrate Polymers, 2010, 79 (1): 164-169
|
[17] |
Wang Z, McDonald A G, Westerhof R J M, Kersten S R A. Effect of cellulose crystallinity on the formation of a liquid intermediate and on product distribution during pyrolysis [J]. Journal of Analytical and Applied Pyrolysis, 2013, 100: 56-66
|
[18] |
Graenacher C. Cellulose solution [P]: US, 1943176. 1934-01-09
|
[19] |
Rogers R D, Seddon K R. Chemistry. Ionic liquids—solvents of the future? [J]. Science, 2003, 302 (5646): 792-793
|
[20] |
Swatloski R P, Spear S K, Holbrey J D, Rogers R D. Dissolution of cellose with ionic liquids [J]. Journal of American Chemical Society, 2002, 124 (18): 4974-4975
|
[21] |
Zhu S, Chen R, Wu Y, Chen Q, Zhang X, Yu Z. A mini-review on greenness of ionic liquids [J]. Chemical and Biochemical Engineering Quarterly, 2009, 23 (2): 207-211
|
[22] |
Heinze T, Schwikal K, Barthel S. Ionic liquids as reaction medium in cellulose functionalization [J]. Macromolecular Bioscience, 2005, 5 (6): 520-525
|
[23] |
Zhu S, Wu Y, Chen Q, et al. Dissolution of cellulose with ionic liquids and its application: a mini-review [J]. Green Chem., 2006, 8 (4): 325-327
|
[24] |
Li Changzhi (李昌志), Wang Aiqin (王爱琴), Zhang Tao (张涛). Progress of conversion of cellulose resource in ionic liquids [J]. CIESC Journal (化工学报), 2013, 64 (1): 182-197
|
[25] |
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 Research Journal, 1959, 29 (10): 786-794
|
[26] |
Park S, Baker J O, Himmel M E, et al. Research cellulose crystallinity index: measurement techniques and their impact on interpreting cellulase performance [J]. Biotechnol. Biofuels, 2010, 3: 10
|
[27] |
Han J, Zhou C, French A D, et al. Characterization of cellulose Ⅱ nanoparticles regenerated from 1-butyl-3-methylimidazolium chloride [J]. Carbohydrate Polymers, 2013, 94 (2): 773-781
|
[28] |
Freeman E S, Carroll B. The application of thermoanalytical techniques to reaction kinetics: the thermogravimetric evaluation of the kinetics of the decomposition of calcium oxalate monohydrate [J]. J. Phys. Chem., 1958, 62 (4): 394-397
|