第 2 期                    余   彬，等:  一类含甲基结构高透明聚酰亚胺的合成与性能                                  ·283·


            上。该类 MPI 膜材料还显示出了较高的热性能和力                              monomer  contents:  Thermal  property  and  optical  transparency[J].
                                                                   Macromolecular Research, 2014, 22(11): 1178-1182.
            学性能。优良的综合性能和相对便利的原料配方和
                                                               [12]  Yao D, Yang Y, Deng Y, et al. Flexible polyimides through one-pot
            制备方法，使得该类共聚型 MPI 在可溶性透明膜材                              synthesis as water-soluble binders for silicon anodes in lithium ion
                                                                   batteries[J]. Journal of Power Sources, 2018, 379: 26-32.
            料方面具有潜在的应用价值。
                                                               [13]  Huang X H, Huang W, Liu J Y, et al. Synthesis of highly soluble and
                                                                   transparent polyimides[J]. Polymer International, 2012, 61(10): 1503-
            参考文献：                                                  1509.
            [1]   Hu X,  Mu H,  Wang  Y,  et al.  Colorless  polyimides  derived  from   [14]  Zhao J, Peng L, Zhu Y L, et al. Synthesis and memory characteristics
                 isomeric  dicyclohexyl-tetracarboxylic  dianhydrides  for  optoelectronic   of  novel  soluble  polyimides  based  on  asymmetrical  diamines
                 applications[J]. Polymer, 2018, 134: 8-19.        containing carbazole[J]. Polymer, 2016, 91: 118-127.
            [2]   Sun Jinsong (孙劲松), Zhang Peng (张朋), Bao Jianwen (包建文),   [15]  Zhang  C,  Li  P,  Cao  B.  Effects  of  the  side  groups  of  the
                 et al. Imidization method on soluble polyimide based on 2,3,3′,4′-   spirobichroman-based  diamines  on  the  chain  packing  and  gas
                 diphenyl ether tetracarboxylic acid dianhydride[J]. Polymer Materials   separation  properties  of  the  polyimides[J].  Journal  of  Membrane
                 Science  and  Engineering  Feb  (高分子材料科学与工程),  2018,   Science, 2017, 530: 176-184.
                 34(9): 10-16．                                 [16]  Gao H, Li J, Xie F, et al. A novel low colored and transparent shape
            [3]   Ding  M  X.  Isomeric  polyimides[J].  Progress  in  Polymer  Science,   memory  copolyimide  and  its  durability  in  space  thermal  cycling
                 2007, 32(6): 623-668.                             environments[J]. Polymer, 2018, 156: 121-127.
            [4]   Zhou  Y,  Chen  G,  Zhao  H,  et al.  Synthesis  and  properties  of   [17]  Li Zheng (李铮), Xu Renxin (徐任信), Quan Xiandong (全先懂), et al.
                 transparent polyimides derived from trans-1,4-bis (2,3-dicarboxyphenoxy)   Synthesis and properties of soluble and high transparent polyimides
                 cyclohexane  dianhydride[J].  Journal  of  Polymer  Research,  2015,   derived  from  BAFM[J].  Plastic  Industry  (塑料工业),  2018,  46(9):
                 5(66): 53926-53934.                               37-41,45.
            [5]   Hu X F, Yan J L, Wang Y X, et al. Colorless polyimides derived from   [18]  Zhang Ling (张玲), Xu Ying (徐瑛), Chen Yuhong (陈妤红), et al.
                 2R,  5R,  7S,  10S-naphthanetetracarboxylic  dianhydride[J].  Polymer   Synthesis  and  properties  of  soluble  and  transparent  polyimide
                 Chemistry, 2017, 8: 6165-6172.                    films[J]. Insulation Materials (绝缘材料),2016, 49(4): 14-18.
            [6]   Liu Jingang (刘金刚), Zhang Xiumin (张秀敏), Kong Xiangfei (孔  [19]  Kim S K, Wang X, Ando S, et al. Highly transparent triethoxysilane-
                 祥飞),  et al.  Preparation  and  characterization  of  colorless  high   terminated  copolyimide  and  its  SiO 2  composite  with  enhanced
                 temperature resistant polyimide films[J]. Functional Materials (功能  thermal stability and reduced thermal expansion[J]. European Polymer
                 材料), 2006, 37(9): 1496-1499.                      Journal, 2015, 64: 206-214.
            [7]   Chung  I  S,  Kim  S  Y.  Soluble  polyimides  from  unsymmetrical   [20]  Wang  Chenyi  (汪称意),  Cao  Shijie  (曹世杰),  Chen  Wentao  (陈文
                 diamine  with  trifluoromethyl  pendent  group[J].  Macromolecules,   涛),  et al.  A  series  of  soluble  polyimides  containing  sulfone  and
                 2000, 33(9): 3190-3193.                           trifluoromethyl groups[J]. Journal of Changzhou University(Natural
            [8]   Xu Chang (徐常),    Chen Yunyun (陈云云), Chen Wentao (陈文涛),   Science Edition) (常州大学学报：自然科学版), 2018, 30(4): 7-12
                 et al.  Synthesis  and  properties  of  a  series  of  new  polyimides   [21]  Wang  C Y,  Cao S J,  Chen W T, et al.  Synthesis  and  properties  of
                 containing fluorene and tert-butyl groups[J]. Polymer Materials Science   fluorinated  polyimides  with  multi-bulky  pendant  groups[J].  RSC
                 and Engineering Feb (高分子材料科学与工程), 2016, 32(10): 1-6.   Advances, 2017, 7: 26420-26427.
            [9]   Wang C Y, Chen W T, Chen Y Y, et al. Synthesis and properties of   [22]  Jie  X,  Duan  C,  Wang  L,  et al.  Fabrication  of  an  asymmetric
                 new fluorene-based polyimides containing trifluoromethyl and isopropyl   4,4′-oxydiphthalic  anhydrid-2,4,6-trimethyl-1,3-phenylenediamine/
                 substituents[J]. Materials Chemistry and Physics, 2014, 144: 553-559.   2,6-diaminotoluene  copolyimide  hollow  fiber  membrane  and  its
            [10]  Guan Y, Wang D, Song G, et al. Novel soluble polyimides derived   performance for CO 2 separation[J]. Industrial & Engineering Chemistry
                 from  2,2’-bis[4-(5-amino-2-pyridinoxy)  phenyl]  hexafluoropropane:   Research, 2014, 53(11): 4442-4452.
                 Preparation,  characterization,  and  optical,  dielectric  properties[J].   [23]  Cao C, Chung T S, Liu Y, et al. Chemical cross-linking modification
                 Polymer, 2014, 55(16): 3634-3641.                 of 6FDA-2,6-DAT hollow fiber membranes for natural gas separation[J].
            [11]  Kim  J  C,  Chang  J  H.  Quaternary  copolyimides  with  various     Journal of Membrane Science, 2003, 216(1): 257-268.




            （上接第 247 页）                                        [16]  Fan Ye (樊晔), Niu Tian (牛田), Fang Yun (方云), et al. Preparation
                                                                   of  SCL@SiO 2  nanoparticles  and  their  application  for  Pickering
            [12]  Qiu Yufeng (邱玉峰), Cao Chen (曹琛), Chen Xiaolu (陈晓露), et al.   emulsion[J]. Fine Chemicals (精细化工), 2018, 35(12): 1987-1992.
                 SiO 2-PDMAEMA  stabilized  Pickering  emulsion  and  its  responsive   [17]  Jiang Qiuyan (姜秋艳), Li Zichuang (李自闯), Li Qiuhong (李秋红),
                 properties[J].  Journal  of  East  China  University  of  Science  and   et al.  Hydrophobic  modification  of  core-shell  nanoparticles  and  its
                 Technology (Natural Science Edition) (华东理工大学学报:  自然科  stabilizing effect on Pickering emulsions[J]. Fine Chemicals (精细化
                 学版), 2018, 44(5): 675-680.                        工), 2018, 35(12): 2006-2010, 2016.
            [13]  Jennings  G  K,  Brantley  E  L.  Physicochemical  properties  of   [18]  Zhang Zhihui (张智慧), Zhang Quanyuan (张全元), Xu Zushun (徐
                 surface-initiated polymer films in the modification and processing of   祖顺). Research progress in the application of Pickering emulsion in
                 materials[J]. Advanced Materials, 2004, 16(22):1983-1994.     functional polymers[J]. Chinese Journal of Colloid & Polymer (胶体
            [14]  Wang Huawen (王华文), Ai Ziping (艾子萍), Qiu Meiying (邱梅影),   与聚合物), 2016, 34(3): 141-144.
                 et al.  Investigation  of  the  process  of  phase  transformation  and  the   [19]  Chen X L, Sun H, Xu J, et al. pH-modulated double LCST behaviors
                 microstructure  about  γ-FeOOH[J].  Journal  of  Shandong  University   with  diverse  aggregation  processes  of  random-copolymer  grafted
                 (Natural  Science  Edition)  (山东大学学报:  自然科学版),  1989,   silica  nanoparticles  in  aqueous  solution[J].  RSC  Advances,  2015,
                 24(4): 38-43.                                     5(105): 86584-86592.
            [15]  Li Sen (李森), Zhang Mingzu (张明祖), He Jinlin (何金林), et al.   [20]  Liu Biaolan (刘表兰). Investigation on multi-responsiveness and inter-
                 Film  properties  of  fluorinated  polymethacrylate/polyisobutylene   molecular  interactions  of  several  intelligent  polymers[D].  Wuhan:
                 based  block  copolymers[J].  Acta  Polymerica  Sinica  (高分子学报),   Wuhan  Institute  of  Physics  and  Mathematics  (WIPM)  of  Chinese
                 2014, (12): 1648-1658.                            Academy of Sciences (中国科学院武汉物理数学研究所), 2016.