[1] WILBON P A, CHU F X, TANG C B. Progress in renewable polymers from natural terpenes, terpenoids, and rosin[J].Macromolecular Rapid Communications, 2013,34(1):8-37. [2] 罗成成, 王晖, 陈勇. 纤维素的改性及应用研究进展[J]. 化工进展, 2015,34(3):767-773. LUO C C, WANG H,CHEN Y. Progress in modification of cellulose and application[J]. Chemical Industry and Engineering Progress, 2015,34(3):767-773. [3] MILLER S A. Sustainable polymers:Opportunities for the next decade[J]. ACS Macro Letters, 2013,2(6):550-554. [4] MATHERS R T. How well can renewable resources mimic commodity monomers and polymers?[J]. Journal of Polymer Science. Part A:Polymer Chemistry, 2012,50(1):1-15. [5] YU J, WANG C P, WANG J F, et al. In situ development of self-reinforced cellulose nanocrystals based thermoplastic elastomers by atom transfer radical polymerization[J]. Carbohydrate Polymers, 2016,141:143-150. [6] 申越, 肖舒, 戴林, 等. 纤维素-甲基丙烯酸丁酯的原子转移自由基聚合[J]. 精细化工, 2012,29(6):611-614. SHEN Y,XIAO S,DAI L, et al. Atomic transfer radical polymerization of cellulose-butyl methacrylate[J]. Fine Chemicals,2012,29(6):611-614. [7] ROY D, SEMSARILAR M, GUTHRIE J T, et al.Cellulose modification by polymer grafting:A review[J]. Chemical Society Reviews, 2009,38(7):2046-2064. [8] 韩晶, 程发, 魏玉萍. 原子转移自由基聚合方法在纤维素及其衍生物改性方面的应用:Ⅱ[J]. 高分子通报, 2010(1):11-18. HAN J,CHENG F,WEI Y P. The application of atom transfer radical polymerization at the modification of cellulose and its derivatives:Ⅱ[J]. Chinese Polymer Bulletin,2010(1):11-18. [9] YU J, LIU Y P, LIU X H, et al.Integration of renewable cellulose and rosin towards sustainable copolymers by "grafting from" ATRP[J]. Green Chemistry, 2014,16(4):1854-1864. [10] 张智峰. 纤维素改性研究进展[J]. 化工进展, 2010(8):1493-1501. ZHANG Z F. Research progress in cellulose modification[J]. Chemical Industry and Engineering Progress,2010(8):1493-1501. [11] 祝黎庄, 吴伟兵. 纤维素均相ATRP接枝改性的研究进展[J]. 造纸科学与技术, 2015(2):53-59. ZHU L Z, WU W B.Research progress of grafting modification of cellulose by homogeneous ATRP[J]. Paper Science & Technology, 2015(2):53-59. [12] JIANG F, WANG Z K, QIAO Y L, et al.A novel architecture toward third-generation thermoplastic elastomers by a grafting strategy[J]. Macromolecules, 2013,46(12):4772-4780. [13] LIU Y P, YAO K J, CHEN X M, et al.Sustainable thermoplastic elastomers derived from renewable cellulose, rosin and fatty acids[J]. Polymer Chemistry, 2014,5(9):3109-3280. [14] ZHANG J Y, LI T Q, MANNION A M, et al.Tough and sustainable graft block copolymer thermoplastics[J]. ACS Macro Letters, 2016,5(3):407-412. [15] YU J, WANG J F, WANG C P, et al.UV-absorbent lignin-based multi-arm star thermoplastic elastomers[J]. Macromolecular Rapid Communications, 2015,36(4):398-404. [16] GHI P Y, HILL D J T, O'DONNELL J H, et al. The copolymerisation of tetrahydrofurfuryl methacrylate and methyl methacrylate[J].Polymer Gels & Networks, 1996,4(3):253-267. |