[1] Jud K, Kausch H H, Williams J G. Fracture mechanics studies of crack healing and welding of polymers[J]. Journal of Materials Science, 1981,16(1):204-210.
[2] Heaton T H. Evidence for and implications of self-healing pulses of slip in earthquake rupture[J]. Physics of the Earth and Planetary Interiors, 1990,64(1):1-20.
[3] Hastings G W, Mahmud F A. Intelligent orthopaedic materials[J]. Journal of Intelligent Material Systems and Structures, 1993,4(4):452-456.
[4] White S R, Sottos N R, Geubelle P H, Moore J S, Kessler M R, Sriram S R, Brown E N, Viswanathan S. Autonomic healing of polymer composites[J]. Nature, 2001,409(6822):794-797.
[5] Williams G, Trask R S, Bond I P.A self-healing carbon fibre reinforced polymer for aerospace applications[J]. Composites, Part A:Applied Science and Manufacturing, 2007,38:1525-1532.
[6] Trask R S, Williams H R, Bond I P. Self-healing polymer composites:mimicking nature to enhance performance[J]. Bioinspiration & Biomimetics, 2007,2(1):1-9.
[7] Trask R S, Williams G J, Bond I P. Bioinspired self-healing of advanced composite structures using hollow glass fibres[J]. Journal of the Royal Society Interface, 2007,4(13):363-371.
[8] Toohey K S, Sottos N R, Lewis J A, Moore J S, White S R. Self-healing materials with microvascular networks[J]. Nature Materials, 2007,6(8):581-585.
[9] Hansen C J, Wu W, Toohey K S,Sottos N R, White S R, Lewis J A. Self-healing materials with interpenetrating microvascular networks[J]. Advanced Materials, 2009,21(41):4143-4147.
[10] Toohey K S, Hansen C J, Lewis J A, Moore J S, White S R. Delivery of two-part self-healing chemistry via microvascular networks[J]. Advanced Functional Materials, 2009,19(9):1399-1405.
[11] Liu Y L, Chuo T W. Self-healing polymers based on thermally reversible Diels-Alder chemistry[J]. Polymer Chemistry, 2013,4(7):2194-2205.
[12] Dohler D, Zare P, Binder W H. Hyperbranched polyisobutylenes for self-healing polymers[J]. Polymer Chemistry, 2014,5(3):992-1000.
[13] Pepels M, Filot I, Klumperman B, Goossens H. Self-healing systems based on disulfide-thiol exchange reactions[J].Polymer Chemistry, 2013,4(18):4955-4965.
[14] 杨小熠, 刘敬成, 袁妍, 刘仁, 刘晓亚. 自修复型光固化树脂的制备及其应用研究[J].涂料工业, 2016,46(6):1-5.Yang X Y, Liu J C, Yuan Y, Liu R, Liu X Y. Synthesis and application of UV curable self-healing resin[J]. Paint & Coating Industry, 2016,46(6):1-5.
[15] Varley R J, Shen S, van der Zwaag S. The effect of cluster plasticisation on the self healing behaviour of ionomers[J]. Polymer, 2010,51(3):679-686.
[16] Brunsveld L, Folmer B J B, Meijer E W, Sijbesma R P. Supramolecular polymers[J]. Chemical Reviews, 2001,101(12):4071-4098.
[17] 李思超, 韩朋, 许华平. 自修复高分子材料[J]. 化学进展, 2012,24(7):1346-1352.Li S C, Han P, Xu H P. Self-healing polymeric materials[J]. Progress in Chemistry, 2012,24(7):1346-1352.
[18] Wang W, Xu L K, Li X B, Lin Z F, Yang Y, AN E P. Self-healing mechanisms of water triggered smart coating in seawater[J]. Journal of Materials Chemistry A, 2014,2(6):1914-1921.
[19] Pianowski Z L, Karcher J, Schneider K. Photoresponsive self-healing supramolecular hydrogels for light-induced release of DNA and doxorubicin[J]. Chemical Communications, 2016,52(15):3143-3146.
[20] Yu C, Wang C F, Chen S. Robust self-healing host-guest gels from magnetocaloric radical polymerization[J]. Advanced Functional Materials, 2014,24(9):1235-1242.
[21] Lin Y L, Li G.J. An intermolecular quadruple hydrogen-bonding strategy to fabricate self-healing and highly deformable polyurethane hydrogels[J]. Journal of Materials Chemistry B, 2014,2(39):6878-6885.
[22] Ji S, Cao W, Yu Y, Xu H P. Visible-light-induced self-healing diselenide-containing polyurethane elastomer[J]. Advanced Materials, 2015,27(47):7740-7745.
[23] Habault D, Zhang H J, Zhao Y. Light-triggered self-healing and shape-memory polymers[J]. Chemical Society Reviews, 2013,42(17):7244-7256.
[24] Chung C M, Roh Y S, Cho S Y, Kim J G. Crack healing in polymeric materials via photochemical[2+2] cycloaddition[J]. Chemistry of Materials, 2004,16(21):3982-3984.
[25] Oya N, Sukarsaatmadja P, Ishida K, Yoshie N. Photoinduced mendable network polymer from poly (butylene adipate) end-functionalized with cinnamoyl groups[J]. Polymer Journal, 2012,44(7):724-729.
[26] Hu L, Cheng X, Zhang A. A facile method to prepare UV light-triggered self-healing polyphosphazenes[J]. Journal of Materials Science, 2015,50(5):2239-2246.
[27] Ling J, Rong M Z, Zhang M Q. Coumarin imparts repeated photochemical remendability to polyurethane[J]. Journal of Materials Chemistry, 2011,21(45):18373-18380.
[28] Banerjee S, Tripathy R, Cozzens D, Nagy T, Keki S, Zsuga M, Fauft R. Photoinduced smart, self-healing polymer sealant for photovoltaics[J]. ACS Applied Materials & Interfaces, 2015,7(3):2064-2072.
[29] Froimowicz P, Frey H, Landfester K. Towards the generation of self-healing materials by means of a reversible photo-induced approach[J]. Macromolecular Rapid Communications, 2011,32(5):468-473.
[30] Radl S, Kreimer M, Griesser T. Oesterreicher A, Moser A, Kern W, Schlogl S. New strategies towards reversible and mendable epoxy based materials employing[4πs+4πs] photocycloaddition and thermal cycloreversion of pendant anthracene groups[J]. Polymer, 2015,80:76-87.
[31] Ghosh B, Urban M W. Self-repairing oxetane-substituted chitosan polyurethane networks[J]. Science, 2009,323(5920):1458-1460.
[32] Li R, Chen J Q, Zhou T S, Pei J Z. Preparation and characterization of novel light induced self-healing materials for cracks in asphalt pavements[J]. Construction and Building Materials, 2016,105:336-342.
[33] Amamoto Y, Kamada J, Otsuka H, Takahara A, Matyjaszewski K. Repeatable photoinduced self-healing of covalently cross-linked polymers through reshuffling of trithiocarbonate units[J]. Angewandte Chemie, 2011,123(7):1698-1701.
[34] Bowman C N, Kloxin C J. Covalent adaptable networks:reversible bond structures incorporated in polymer networks[J]. Angewandte Chemie International Edition, 2012,51(18):4272-4274.
[35] Amamoto Y, Otsuka H, Takahara A, Matyjaszewski K. Self-healing of covalently cross-linked polymers by reshuffling thiuram disulfide moieties in air under visible light[J]. Advanced Materials, 2012,24(29):3975-3980.
[36] Michal B T, Jaye C A, Spencer E J, Rowan S J. Inherently photohealable and thermal shape-memory polydisulfide networks[J]. ACS Macro Letters, 2013,2(8):694-699.
[37] Burnworth M, Tang L, Kumpfer J R, Duncan A J, Beyer F L, Fiore G L, Rowan S J, Weder C. Optically healable supramolecular polymers[J]. Nature, 2011,472(7343):334-337.
[38] Borre E, Stumbe J F, Bellemin-Laponnaz S, Mauro M. Light-powered self-healable metallosupramolecular soft actuators[J]. Angewandte Chemie International Edition, 2016,55(4):1313-1317.
[39] Kang H S, Kim H T, Park J K, Lee S. Light-powered healing of a wearable electrical conductor[J]. Advanced Functional Materials, 2014,24(46):7273-7283.
[40] Cao Z X, Wang R G, Hao L F, Jiao W C, Yang F, Wang Q, Liu W B, Zhang B Y, Lu X L, He X D. Interfacial healing of carbon fiber composites in the presence of gold nanoparticles as localized "nano-heaters"[J]. RSC Advances, 2015,5(8):5680-5685.
[41] Cao Z X, Wang R G, Yang F, Hao L F, Jiao W C, Liu W B, Zhang B Y. Photothermal healing of a glass fiber reinforced composite interface by gold nanoparticles[J]. RSC Advances, 2015,5(124):102167-102172.
[42] Peng P, Zhang B Y, Cao Z X, Hao L F, Yang F, Jiao W C, Liu W B, Wang R G. Photothermally induced scratch healing effects of thermoplastic nanocomposites with gold nanoparticles[J]. Composites Science and Technology, 2016,133:165-172.
[43] Xiong S, Wang Y, Zhu J, Yu J R, Hu Z M. Poly (ε-caprolactone)-grafted polydopamine particles for biocomposites with near-infrared light triggered self-healing ability[J]. Polymer, 2016,84:328-335.
[44] Kim J T, Kim B K, Kim E Y, Kwon S H, Jeong H M. Synthesis and properties of near IR induced self-healable polyurethane/graphene nanocomposites[J]. European Polymer Journal, 2013,49(12):3889-3896.
[45] Yang Y, Pei Z, Zhang X, Tao L, Wei Y, Ji Y. Carbon nanotube-vitrimer composite for facile and efficient photo-welding of epoxy[J]. Chemical Science, 2014,5(9):3486-3492.
[46] Hia I L, Vahedi V, Pasbakhsh P. Self-healing polymer composites:prospects, challenges, and applications[J]. Polymer Reviews, 2016,56(2):225-261.
[47] Van Tittelboom K, De Belie N. Self-healing in cementitious materials-A review[J]. Materials, 2013,6(6):2182-2217.
[48] Altuna F I, Antonacci J, Arenas G F, Pettarin V. Hoppe C E, Williams R J J. Photothermal triggering of self-healing processes applied to the reparation of bio-based polymer networks[J]. Materials Research Express, 2016,3(4):045003.
[49] Dai X, Zhang Y, Gao L, Bai T, Wang W, Cui Y L, Liu W G. A mechanically strong, highly stable, thermoplastic, and self-healable supramolecular polymer hydrogel[J]. Advanced Materials, 2015,27(23):3566-3571.
[50] Guo M, Pitet L M, Wyss H M, Vos M, Dankers P, Meijer E W. Tough stimuli-responsive supramolecular hydrogels with hydrogen-bonding network junctions[J]. Journal of the American Chemical Society, 2014,136(19):6969-6977. |