• Review and comments •
Li Donghan, Qi Shicheng, Zhang Xiaoa, Liao Mingyi. Preparation, Functionalization and Properties of Low Molecular Fluoropolymers[J]. Progress in Chemistry, 2016, 28(5): 673-685.
[1] Maclachlan J D. Polym-Plast. Tech. Eng. 1978, 11: 41. [2] Ameduri B, Boutevin B. Well-Architectured Fluoropolymers: Synthesis, Properties and Applications, Amsterdam: Elsevier, 2004. 7. [3] Calabrese L, Alenza A. Composites Science and Technology, 2003, 63: 851. [4] Hardman H V, Hardman K V. USP 2349549, 1941. [5] Seligman K L, Uraneck D. USP 2877212, 1959. [6] 梁滔(Liang T), 魏绪玲(Wei X L), 龚光碧(Gong G B). 合成橡胶工业(China Synthetic Rubber Industry), 2011, 5: 398. [7] 梁滔(Liang T), 魏绪玲(Wei X L), 张惠怡(Zhang H Y), 刘栓祥(Liu S X). 高分子通报(Polymer Bulletin), 2012, 4: 11. [8] 罗延龄(Luo Y L). 弹性体(Elastomerics), 1998, 2: 50. [9] Gallagher G A. USP 3069401, 1962. [10] Robert C. Klingender. Handbook of Specialty Elastomers. NY: CRC Press, 2008. 133. [11] Ross E W, Gary J R, Hoover S. Modern Fluoroelastomers, 1997, 422. [12] Albert L M. Fluoroelastomers Handbook. NY: William Andrew Publishing, 2006. 37. [13] Ameduri B. Chemical Reviews, 2009, 109: 6632. [14] 杨晓勇(Yang X Y). 高分子通报(Polymer Bulletin), 2014, 5: 10. [15] Kuangsen S, Richard L. Journal of the American Chemical Society, 1995, 117: 4276. [16] 蔡树铭(Cai S M). 化工新型材料(New Chemical Materials), 1999, 2: 31. [17] Masatoshi A, Huang H S. Organo-Flnorine Industry, 2001, 4: 30. [18] Ni Z Y, Wang S Q. Organo-Flnorine Industry, 2006, 2: 47. [19] Ameduri B. Macromolecules. 2010, 43: 10163. [20] Lee J, Yandek G R. Polymer, 2005, 46: 12511. [21] Stephens W D, McIntosh C R, Taylor C O. Journal of Polymer Science Part A-1, 1968, 6: 1037. [22] Kuczko W, Joseph A. Rubber World, 1995, 212: 19. [23] Carenza M, Lora S, Pezzin G. Radiation Physics and Chemistry, 1990, 35: 172. [24] Kazuo K. USP 5663251, 1997. [25] Reinhard A. USP 4338237, 1982. [26] Tang P L. USP 6512063, 2003. [27] Kaino M, Kanenori S, Wada M. CN 103732681A, 2012. [28] Ameduri B, Boutevin B. Journal of Fluorine Chemistry, 2000, 104: 53. [29] Howell J L, Hofmann M A, Waterfeld A, Sipyagin A M, Friesen C M, Thrasher J S. Journal of Fluorine Chemistry, 1998, 89: 131. [30] Velichkova R S, Christova D C.Progress in Polymer Science, 1995, 20: 819. [31] Chen T, Zhu J, Li B, Guo S, Yuan Z, Sun P, Ding D, Shi A. Macromolecules, 2005, 38: 4030. [32] Ameduri B, Boutevin G, Kostov. Prog. Polym. Sci., 2001, 26: 105. [33] Nakagawa S, Ihara K, Sogabe T.USP 4513129, 1985. [34] Conti R, John N, Richard L, Brian D, Jeffrey F, Debra K.USP 4877839, 1989. [35] 山边正显(Yamanabe J), 陈芝秀(Chen Z X). 橡胶参考资料(China Rubber Resources), 1996, 12: 26. [36] Zheng H Z. Organo-Flnorine Industry, 2006, 1: 58. [37] Gareth H, Patrick E C, Ken J, Theodore D. Fluoropolymers Part 1: Synthesis. NY: Kluwer Academic Publisher, 2002.191. [38] Wang D X, Du Y S. Organo-Flnorine Industry, 2001, 2: 23. [39] Graham D P. Journal of Organic Chemistry, 1966, 31: 955. [40] Dmowski W, Flowers W T, Haszeldine R N. Journal of Fluorine Chemistry, 1977, 9: 94. [41] Dresdner R D, Tlumac F N, Young J A. Journal of Organic Chemistry, 1965, 30: 3524. [42] Ohsaka Y, Tohzuka T. USP 4296265, 1981. [43] Anello L G, Sweeney R F. USP 4377717, 1983. [44] Ozawa M, Komatsu T, Matsuoka K. USP 4042638,1981. [45] Prokop R A. USP 5254774, 1993. [46] Millauer H, Schwertfeger W, Siegemund G. Angewandte Chemie International Edition, 1985, 24: 161. [47] Arbogast F L, USP 3412148, 1968. [48] Siegemund G, Finke M. CN 90100159.7, 1990. [49] Kruse A, Siegemund G, Schwertfeger W. CN 88107738, 1988. [50] 孙元宝(Sun Y B), 魏贤勇(Wei X Y), 邱贞慧(Qiu Z H), 费逸伟(Fei Y W).精细石油化工进展(Advances in Fine Petrochemicals), 2003, 3: 6. [51] Hanford W E, Wilmington, Joyce R M. USP 2440800, 1942. [52] 朱璟(Zhu J). 天津大学博士学位论文(Doctoral Dissertation of Tianjin University), 2013. [53] Boutevin B, David G, Boyer C. Advances in Polymer Science, 2007, 206: 131. [54] Haszeldine R N. Nature, 1951, 167: 139. [55] Abdellatif M, Ameduri B, Boutevin B, Chambers R D, Caporiccio G, Wright A P. Journal of Fluorine Chemistry, 1995,74: 59. [56] Boutevin B. Journal of Polymer Science Part A: Polymer Chemistry, 2000, 38: 3235. [57] Lahiouhel D, Ameduri B, Boutevin B. Journal of Fluorine Chemistry, 2001, 107: 81. [58] Ameduri B. Chemical Reviews, 2009, 109: 6632. [59] Haszeldine R N. Journal of the Chemical Society, 1949: 2856. [60] Haszeldine R N. Journal of the Chemical Society, 1950: 3037. [61] Haszeldine R N. Journal of the Chemical Society, 1953: 3761. [62] Murray H, Glenside, Milton B.USP 3156732, 1964. [63] Murray H, Milton B, Francis E L. Journal of the American Chemical Society, 1957, 79: 2549. [64] Tatemoto H. USP 4158678, 1979. [65] Boyer C, Valade D, Sauguet L, Ameduri B, Boutevin B. Macromolecules, 2005, 38: 10353. [66] David G, Boyer C, Tonnar J, Ameduri B, Lacroix P, Boutevin B. Chemical Reviews, 2006, 106: 3936. [67] Sawada H, Tashima T, NishiyamY, Kikuchi M, Goto Y, Kostov G, Ameduri B. Macromolecules, 2011, 44: 1114. [68] Ameduri B, Boutevin B. Topics in Current Chemistry, 1997, 192: 165. [69] Gondi S R, Vogt A P, Sumerlin B S. Macromolecules, 2007, 40: 474. [70] Ameduri B, Ladaviere C, Delolme F, Boutevin B. Macromolecules, 2004, 37: 7602. [71] Tatemoto M, Morita S. EP 27721, 1981. [72] Tatemoto M, Morita S. USP 4361678, 1982. [73] Hung M H. USP 5231154, 1993. [74] Rice D E. USP 3457245, 1969. [75] Rice D E. USP 3461155, 1969. [76] Rice D E, Sandberg C L. USP 3438953, 1969. [77] Boutevin B, Robin J J. Advances in Polymer Science, 1992, 102: 105. [78] Ameduri B, Boutevin B. Advances in Polymer Science, 1992, 102: 133. [79] Sokolov S V, Skoblikova V I, Purtseladze V I. USP 5739233, 1998. [80] Liang L K, Lu S, Wei Y Y, Wang Q. Macromolecules, 2007, 40: 4121. [81] Zhang Z C, Wang Z, Chung T C. Macromolecules, 2007, 40: 5235. [82] Xu A H, Yuan W Z, Zhang H, Wang L, Li H, Zhang Y M. Polymer International, 2012, 61: 901. [83] 徐安厚 (Xu A H).上海交通大博士学位论文(Doctoral Dissertation of Shanghai Jiao Tong University), 2011. [84] Anilkumar R, Burton D J. Tetrahedron Letters, 2003, 44: 6661. [85] Kirsch P. Modern Fluoroorganic Chemistry Synthesis, Reactivity, Applications. Darmstadt: WILEY-VCH Verlag GmbH & Co. KGaA, 2004.13. [86] Schmiegel W W. Angewandte Makromolekulare Chemie, 1979, 77: 39. [87] Mitra S, Siahkali A G, Kingshott P. Polymer Degradation and Stability, 2004, 83: 195. [88] Cluff E F, Hundred B. USP 3147314, 1964. [89] Moggi G, Bonardelli P, Chiodini G, Conti S. USP 4742126, 1988. [90] Caporiccio G, Gornowicz G. USP 5395886, 1995. [91] Coggio W D, Pham T D. USP 5733981, 1998. [92] Coggio W D, Dietz T M, Fronek D R, Fukushi T, Nelson C J, Parker D S, Pham T D, Yamanaka K K. USP 6080487, 2000. [93] Chiang L C, Lin J T, Tatsu H, Kogan L M, Skornyakov A S, Zapevalova T Y, Blagodatova O V, Sokolov S V. USP 5986038, 1999. [94] Zhuravlev M V, Blagodatova O V, Kokotin I V, Barinov O V, Lebedev N V, Gubanov V A. RUP 2452746, 2012. [95] Mizuide F, Tatsu H, Sokolov S V. USP 6329471, 2001. [96] 刘煜(Liu Y), 李吉明(Li J M), 李娟(Li J),齐士成(Qi S C). 合成橡胶工业(Synthetic Rubber Industry), 2011, 34: 232. [97] 李娟(Li J),吕亚非(Lu Y F), 齐士成(Qi S C). 合成橡胶工业(China Synthetic Rubber Industry), 2014, 3: 188. [98] Li J, Lu Y F, Liu Y, Li Y, Zhang X A, Qi S C. Polymer-Plastics Technology and Engineering, 2014, 53: 46. [99] Ameduri B, Boutevin B, Nouiri M, Talbi M.Journal of Fluorine Chemistry, 1995, 74, 2: 191. [100] Kostov G, Ameduri B, Sergeeva T, Dolbier W R, Winter R, Gard G L. Macromolecules, 2005, 38: 8316. [101] Taguet A, Sauguet L, Ameduri B, Boutevin B. Journal of Fluorine Chemistry, 2007, 128: 619. [102] Maurizio P, Emma B, Giuseppe E, Stefano R. Journal of Fluorine Chemistry, 1999, 95: 71. [103] Guiot J, Ameduri B, Boutevin B, Lannuzel T. Journal of Polymer Science Part A: Polymer Chemistry, 2006, 44: 3896. [104] Robinson M I, Kochi J K. Macromolecules, 1983, 16: 526. [105] Zaggia A, Ameduri B. Current Opinion in Colloid & Interface Science, 2012, 17: 188. [106] Tasdelen M A, Kahveci M U, Yagci Y. Progress in Polymer Science, 2011, 36: 455. [107] Hirao A, Hayashi M. Acta Polymerica, 1999, 50: 219. [108] Jerome R, Henrioulle G M, Boutevin B, Robin J J. Progress in Polymer Science, 1991, 16: 837. [109] Yukishige K, Eiichiro Y, Sanae M, Norio Y. Journal of Fluorine Chemistry, 1998, 91: 147. [110] Saint L R, Manseri A, Ameduri B, Lebret B, Vignane P. Macromolecules, 2002, 35: 1524. [111] Chalathorn C, Xu K, Huang H, Wan Q. Journal of Polymer Science Part A: Polymer Chemistry, 2010, 48: 4800. [112] Bhaskar K J, Mariappan P. Journal of Organic Chemistry, 1991, 56: 5964. [113] Tale R H, Patil K M, Dapurkar S E. Tetrahedron Letter, 2003, 44: 3427. [114] Li D H,Liao M Y, Qi S C. Basic Research of Elastomers. Guangzhou: Polymer Bulletin, 2015. 90. [115] 李娟(Li J), 吕亚非(Lu Y F), 游维涛(You W T), 郭琳琳(Guo L L), 刘辰(Liu C), 张孝阿(Zhang X A), 齐士成(Qi S C). 高分子学报(Acta Polymerica Sinica), 2013, 11: 1430. [116] Qi S C, Li J, Lu Y F, Zhang X A, Wang J D, Li Y P, Li Y, Jiang S L, Yuan R P. CN 201310081168.5, 2013. [117] Qi S C, Li J, Lu Y F, Zhang X A, Wang J D, Li Y P, Li Y, Jiang S L, Yuan R P. CN 103183763A, 2013. [118] Balaguk J, Ameduri B, Boutevin B, Caporiccio G. Journal of Fluorine Chemistry, 1995,73: 237. [119] Balaguk J, Ameduri B, Boutevin B, Caporiccio G. Journal of Fluorine Chemistry, 1995,74: 49. [120] Hung M H, Ameduri B, Boyer C A. EP 2203489, 2010. [121] Souzy R, Boutevin B, Ameduri B. Macromolecules, 2012, 4: 3145. [122] Hung M H, Ameduri B, Boutevin B, Soules A. USP 8247614, 2012. [123] Brosse J C, Derouet D, Epaillard F, Soutif J C. Polymer Science, 1986, 81: 169. [124] 任文坛(Ren W T), 张勇(Zhang Y), 彭宗林(Peng Z L), 张隐西(Zhang Y X). 橡胶科技市场(Rubber Science and Technology Market), 2006, 6: 16. [125] Patil Y, Alaaeddine A, Ono T, Ameduri B. Macromolecules, 2013, 46: 3092. [126] Taguet A, Ameduri B, Dufresne A. European Polymer Journal, 2006, 42: 2549. [127] 梁滔(Liang T), 王洪山(Wang H S), 高阳光(Gao Y G), 龚光碧(Gong G B), 魏绪玲(Wei X L). 合成橡胶工业(China Synthetic Rubber Industry), 2010, 6: 482. [128] Timperley C M, Arbon R E, Bird M. Journal of Fluorine Chemistry, 2003, 121: 23. [129] 张玉龙 (Zhang Y L), 孙敏 (Sun M). 橡胶品种与性能手册(Handbook of Rubber Variety and Performance).北京: 化学工业出版社(Beijing: Chemical Industry Press), 2006. 220. [130] Abdul K M, Bhowmick A K. Polymer Degradation and Stability. 2003, 79: 283. [131] 于清 (Yu Q). 橡胶原材料手册,第二版(Handbook of Rubber Raw Materials, 2nd ed). 北京: 化学工业出版社(Beijing: Chemical Industry Press), 2007. 207. [132] Vijayakumar G, Karthick S N, Paramasivam R, Ilamaran C. Polymer-Plastics Technology and Engineer, 2012, 51: 1427. [133] Abdelhamida M I, Aboelwafaa A M, Elhadidya H, Habiba A. International Journal of Polymeric Materials and Polymeric Biomaterial, 2012, 61: 505. |
[1] | Dandan Wang, Zhaoxin Lin, Huijie Gu, Yunhui Li, Hongji Li, Jing Shao. Modification and Application of Bi2MoO6 in Photocatalytic Technology [J]. Progress in Chemistry, 2023, 35(4): 606-619. |
[2] | Zhang Huidi, Li Zijie, Shi Weiqun. The Stability Enhancement of Covalent Organic Frameworks and Their Applications in Radionuclide Separation [J]. Progress in Chemistry, 2023, 35(3): 475-495. |
[3] | Xuan Li, Jiongpeng Huang, Yifan Zhang, Lei Shi. 1D Nanoribbons of 2D Materials [J]. Progress in Chemistry, 2023, 35(1): 88-104. |
[4] | Lijun Bao, Junwu Wei, Yangyang Qian, Yujia Wang, Wenjie Song, Yunmei Bi. Synthesis, Properties and Applications of Enzyme-Responsive Linear-Dendritic Block Copolymers [J]. Progress in Chemistry, 2022, 34(8): 1723-1733. |
[5] | Yuexiang Zhu, Weiyue Zhao, Chaozhong Li, Shijun Liao. Pt-Based Intermetallic Compounds and Their Applications in Cathodic Oxygen Reduction Reaction of Proton Exchange Membrane Fuel Cell [J]. Progress in Chemistry, 2022, 34(6): 1337-1347. |
[6] | Caiwei Wang, Dongjie Yang, Xueqing Qiu, Wenli Zhang. Applications of Lignin-Derived Porous Carbons for Electrochemical Energy Storage [J]. Progress in Chemistry, 2022, 34(2): 285-300. |
[7] | Bai Wenji, Shi Yubing, Mu Weihua, Li Jiangping, Yu Jiawei. Computational Study on Cs2CO3-Assisted Palladium-Catalyzed X—H(X=C,O,N, B) Functionalization Reactions [J]. Progress in Chemistry, 2022, 34(10): 2283-2301. |
[8] | Xiangkang Cao, Xiaoguang Sun, Guangyi Cai, Zehua Dong. Durable Superhydrophobic Surfaces: Theoretical Models, Preparation Strategies, and Evaluation Methods [J]. Progress in Chemistry, 2021, 33(9): 1525-1537. |
[9] | Zhen Zhang, Shuang Zhao, Guobing Chen, Kunfeng Li, Zhifang Fei, Zichun Yang. Preparation and Applications of Silicon Carbide Monolithic Aerogels [J]. Progress in Chemistry, 2021, 33(9): 1511-1524. |
[10] | Jinzhao Li, Zheng Li, Xupin Zhuang, Jixian Gong, Qiujin Li, Jianfei Zhang. Preparation of Cellulose Nanocrystallines and Their Applications in CompositeMaterials [J]. Progress in Chemistry, 2021, 33(8): 1293-1310. |
[11] | Jinhuo Gao, Jiafeng Ruan, Yuepeng Pang, Hao Sun, Junhe Yang, Shiyou Zheng. High Temperature Properties of LiNi0.5Mn1.5O4 as Cathode Materials for High Voltage Lithium-Ion Batteries [J]. Progress in Chemistry, 2021, 33(8): 1390-1403. |
[12] | Lizhong Chen, Qiaobin Gong, Zhe Chen. Preparation and Application of Ultra-Thin Two Dimensional MOF Nanomaterials [J]. Progress in Chemistry, 2021, 33(8): 1280-1292. |
[13] | Xiaoxiao Xiang, Xiaowen Tian, Huie Liu, Shuang Chen, Yanan Zhu, Yuqin Bo. Controlled Preparation of Graphene-Based Aerogel Beads [J]. Progress in Chemistry, 2021, 33(7): 1092-1099. |
[14] | Ying Yang, Shupeng Ma, Yuan Luo, Feiyu Lin, Liu Zhu, Xueyi Guo. Multidimensional CsPbX3 Inorganic Perovskite Materials: Synthesis and Solar Cells Application [J]. Progress in Chemistry, 2021, 33(5): 779-801. |
[15] | Binbin Zhu, Xiaohui Zheng, Guang Yang, Xu Zeng, Wei Qiu, Bin Xu. Mechanical Property Regulation of Graphene Oxide Separation Membranes [J]. Progress in Chemistry, 2021, 33(4): 670-677. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||