Page 20 - 201901

P. 20

·6· 精细化工 FINE CHEMICALS 第 36 卷

with supercritical carbon dioxide fluid[J]. Journal of Cleaner X-ray scattering study[J]. Langmuir, 1995, 11(11): 4241-4249.
Production, 2017, 143: 269-277. [24] Johnston K P, Harrison K L, Clarke M J, et al. Water-in-carbon
[2] Zheng H D, Zhang J, Yan J, et al. Investigations on the effect of dioxide microemulsions: an environment for hydrophiles including
carriers on meta-aramid fabric dyeing properties in supercritical proteins[J]. Science, 1996, 271(5249): 624-626.
carbon dioxide[J]. RSC Advances, 2017, 7: 3470-3479. [25] Sagisaka M, Koike D, Mashimo Y, et al. Water/Supercritical CO 2
[3] Zhang J, Zheng H D, Zheng L J. Optimization of eco-friendly microemulsions with mixed surfactant systems[J]. Langmuir, 2008,
reactive dyeing of cellulose fabrics using supercritical carbon dioxide 24(18): 10116-10122.
fluid with different humidity[J]. Journal of Natural Fibers, 2018, [26] Sagisaka M, Iwama S, Hasegawa S, et al. Super-efficient surfactant
15(1): 1-10. for stabilizing water-in-carbon dioxide microemulsions[J]. Langmuir,
[4] Zhang Yuhong (张玉红), Zhou Zhiqiang (周志强), Wang Yang (王 2011, 27: 5772-5780.
洋). Optimization of supercritical CO 2 extraction of camptothecin [27] Mohamed A, Sagisaka M, Hollamby M, et al. Hybrid CO 2-philic
from camptotheca acuminata seeds using orthogonal experimental surfactants with low fluorine content[J]. Langmuir, 2012, 28(15):
design[J]. Fine Chemicals (精细化工), 2012, 28(9): 757-760. 6299-6306.
[5] Zheng H D, Zhang J, Zheng L J. Optimization of an ecofriendly [28] Mohamed A, Ardyani T, Sagisaka M, et al. Economical and efficient
dyeing process in an industrialized supercritical carbon dioxide unit hybrid surfactant with low fluorine content for the stabilisation of
for acrylic fibers[J]. Textile Research Journal, 2016, 87(15): water-in-CO 2 microemulsions[J]. The Journal of Supercritical Fluids,
1818-1828. 2015, 98: 127-136.
[6] Zhang Juan (张娟), Zheng Laijiu (郑来久), Yan Jun (闫俊), et al. [29] Wei Junjie (卫俊杰), Su Baogen (苏宝根), Xing Huabin (邢华斌), et
Mechanical properties of wool fibers in engineering anhydrous al. Progress in Supercritical CO 2 microemulsions with hydrocarbon
dyeing using supercritical carbon dioxide[J]. Journal of Textile surfactants[J]. Progress in Chemistry (化学进展), 2009, 21(6): 1141-
Research (纺织学报), 2017, 38(2): 53-59. 1148.
[7] Zheng H D, Zhang J, Liu M, et al. CO 2 Utilization for the dyeing of [30] Liu J C, Han B X, Li G Z, et al. Investigation of nonionic surfactant
yak hair: Fracture behavior in supercritical state[J]. Journal of CO 2 Dynol-604 based reverse microemulsions formed in supercritical
Utilization, 2017, 18: 117-124. carbon dioxide[J]. Langmuir, 2001, 17: 8040-8043.
[8] Zheng H D, Zhang J, Yan J, et al. An industrial scale multiple [31] Liu J C, Han B X, Wang Z W, et al. Solubility of Ls-36 and Ls-45
supercritical carbon dioxide apparatus and its eco-friendly dyeing surfactants in supercritical CO 2 and loading water in the CO 2/water/
production[J]. Journal of CO 2 Utilization, 2016, 16: 272-281. surfactant systems[J]. Langmuir, 2002, 18: 3086-3089.
[9] Zhang J L, Han B X, Li J S, et al. Carbon dioxide in ionic liquid [32] Yu Wen, Liu Y F, Yin J Z. Separation of 1, 3-propanediol using
microemulsions[J]. Angewandte Chemie International Edition, 2011, supercritical CO 2 microemulsion with non-ionic surfactant Ls-54:
50(9): 9911-9915. Experiment and simulation[J]. Chemical Engineering Journal, 2015,
[10] Luo T, Zhang J L, Tan X N, et al. Water-in-Supercritical CO 2 273: 197-204.
microemulsion stabilized by a metal complex[J]. Angewandte [33] Liang Xiangdong (梁向东), Yin Jianzhong (银建中). Study on
Chemie International Edition, 2016, 55: 13533-13537. micro-structure of SCCO 2 microemulsion with LS-45 by experiment
[11] Robert W G, John L F, Richard D S. Organized molecular assemblies and molecular dynamics simulation method[J]. Applied Science and
in the gas phase: reverse micelles and microemulsions in supercritical Technology (应用科技), 2017, 44(4): 70-74.
fluids[J]. Journal of the American Chemical Society, 1987, 109(3): [34] Eastoe J, Downer A M, Paul A, et al. Fluoro-surfactants at air/water
920-921. and water/CO 2 interfaces[J]. Physical Chemistry Chemical Physics,
[12] Zhang J, Zheng H D, Zheng L J. Effect of treatment temperature on 2000, 2(22): 5235-5242.
structures and properties of flax rove in supercritical carbon [35] Eastoe J, Paul A, Nave S, et al. Micellization of hydrocarbon
dioxide[J]. Textile Research Journal, 2018, 88(2): 155-166. surfactants in supercritical carbon dioxide[J]. Journal of the
[13] Xu Qingquan (徐清泉), Xu Jinqiao (徐金巧), Chen Yong (陈勇), et American Chemical Society, 2001, 123(5): 988-989.
al. Optimization of supercritical carbon dioxide fluid extraction [36] Eastoe J, Gold S, Rogers S, et al. Designed CO 2-Philes stabilize
process for aroma components of tobacco[J]. Fine Chemicals (精细 water-in-carbon dioxide microemulsions[J]. Angewandte Chemie
International Edition, 2006, 45(22): 3675-3677.
化工), 2017, 34(4): 431-436.
[14] Zheng H D, Zhong Y, Zheng L J, et al. CO 2 utilization for the [37] Fan X, Potluri V K, McLeod M C, et al. Oxygenated hydrocarbon
waterless dyeing: Characterization and properties of Disperse Red ionic surfactants exhibit CO 2 solubility[J]. Journal of the American
Chemical Society, 2005, 127(33): 11754-11762.
167 in supercritical fluid[J]. Journal of CO 2 Utilization, 2018, 24: [38] Wu B, Yang X N, Xu Z Q, et al. Molecular dynamics simulation of
266-273. self-assembly structure for AOK based reverse micelle in
[15] Scondo A, Dumarcay-Charbonnier F, Marsura A, et al. Supercritical supercritical CO 2[J]. Colloids and Surfaces A: Physicochemical and
CO 2 phosphine imide reaction on peracetylated β-cyclodextrins[J]. Engineering Aspects, 2010, 367(1/2/3): 148-154.
Journal of Supercritical Fluids, 2009, 48(1): 41-47. [39] Sawada K, Takagi T, Jun J H, et al. Dyeing natural fibres in
[16] Zhang J, Zheng L J, Su Y H, et al. Dyeing behavior prediction of supercritical carbon dioxide using a nonionic surfactant reverse
cotton fabrics in supercritical CO 2[J]. Thermal Science, 2017, 21(4): micellar system[J]. Coloration Technology, 2002, 118(5): 233-237.
1739-1744. [40] Sawada K, Jun J H, Ueda M. Dyeing of natural fibres from
[17] Zhang Guodong (张国栋), Han Fu (韩富), Zhang Gaoyong (张高 perfluoro-polyether reverse micelles in supercritical carbon
勇 ). Surfactants for microemulsions in supercritical carbon dioxide[J]. Coloration Technology, 2003, 119(6): 336-340.
dioxide[J]. Chemistry Bulletin (化学通报), 2006, (2): 84-90. [41] Liu J, Ikushima Y, Shervani Z. Investigation on the solubilization of
[18] Cui Bo (崔波), Dong Chaoxia (董朝霞), Li Yi (李翼), et al. Cloud organic dyes and micro-polarity in AOT water-in-CO 2 microemulsions
point pressure of supercritical carbon dioxide microemulsion with fluorinated co-surfactant by using UV-Vis spectroscopy[J]. The
system[J]. Petrochemical Technology (石油化工), 2013, 42(3): Journal of Supercritical Fluids, 2004, 32(1/2/3): 97-103.
303-307. [42] Sawada K, Oshima M, Sugimoto M, et al. Complexation of ionic
[19] Cui Bo (崔波), Lin Haiqin (林梅钦), Dong Chaoxia (董朝霞), et al. substances with surfactants for solubilisation in supercritical carbon
Research progress of the microemulsions in supercritical carbon dioxide[J]. Dyes and Pigments, 2008, 76: 1-6.
dioxide[J]. Applied Chemical Industry (应用化工), 2009, 38(8): [43] Aslanidou D, Tsioptsias C, Panayiotou C. A novel approach for
1214-1219. textile cleaning based on supercritical CO 2 and Pickering
[20] Hoefling T A, Beitle R R, Enick R M, et al. Design and synthesis of emulsions[J]. Journal of Supercritical Fluids, 2013, 76: 83-93.
highly CO 2-soluble surfactants and chelating agents[J]. Fluid Phase [44] Aslanidou D, Karapanagiotis I, Panayiotou C. Tuneable textile
Equilibria, 1993, 83(2): 203-212. cleaning and disinfection process based on supercritical CO 2 and
[21] Harrison K, Goveas J, Johnston K P, et al. Water-in-Carbon dioxide Pickering emulsions[J]. Journal of Supercritical Fluids, 2016, 118:
microemulsions with a fluorocarbon-hydrocarbon hybrid 128-139.
surfactant[J]. Langmuir, 1994, 10(10): 3536-3541. [45] Liu S Q, Chen Z Y, Sun J P, et al. Ecofriendly pretreatment of gray
[22] Hoefling T A, Enick R M, Beckman E J. Microemulsions in cotton fabric with enzymes in supercritical carbon dioxide fluid[J].
near-critical and supercritical carbon dioxide[J]. Journal of Physical Journal of Cleaner Production, 2016, 120: 85-94.
Chemistry, 1991, 95 (19): 7127-7129. [46] Zhang J, Zheng H D, Zheng L J. A novel eco-friendly scouring and
[23] Fulton J L, Pfund D M, McClain J B, et al. Aggregation of bleaching technique of flax rove using supercritical carbon dioxide
amphiphilic molecules in supercritical carbon dioxide: A small angle fluid[J]. Journal of Engineered Fibers and Fabrics, 2017, 12: 44-51.

15 16 17 18 19 20 21 22 23 24 25