Self-healing polymers based on a photo-active reversible addition-fragmentation chain transfer (RAFT) agent

Journal of Polymer Research

Volumn 22, Issue 4, 2015, Pages 1-8

  Cheng, Chuanjie ^a   Bai, Xiongxiong ^a   Zhang, Xu ^a   Li, Hongxia ^a   Huang, Qinghua ^a   Tu, Yuanming ^a  

^a JIANGXI SCIENCE AND TECHNOLOGY NORMAL UNIVERSITY   (China)

Author keywords

Functional polymer; Photo active; Reversible addition fragmentation chain transfer (RAFT); Self healing; Trithiocarbonate

Indexed keywords

ACRYLIC MONOMERS; CHEMICAL BONDS; ESTERS; FUNCTIONAL POLYMERS; IRRADIATION;

HYDROXYL GROUPS; METHYL METHACRYLATES; PHOTO-ACTIVE; REVERSIBLE ADDITION FRAGMENTATION CHAIN TRANSFER; SELF-HEALING; SELF-HEALING POLYMERS; SELF-HEALING PROPERTIES; TRITHIOCARBONATE;

SELF-HEALING MATERIALS;

EID: 84924212252     PISSN: 10229760     EISSN: 15728935     Source Type: Journal    
DOI: 10.1007/s10965-015-0691-9     Document Type: Article

References (53)

1. Amendola V, Meneghetti M (2009) Self-healing at the nanoscale. Nanoscale 1:74–88
2. García-Huete N, Laza JM, Cuevas JM, Gonzalo B, Vilas JL, León LM (2014) Shape memory effect for recovering surface damages on polymer substrates. J Polym Res 21:481
3. Wei Q, Wang J, Shen XY, Zhang XA, Sun JZ, Qin AJ, Tang BZ (2013) Self-healing hyperbranched poly(aroyltriazole)s. Sci Rep. doi:10.1038/srep01093
4. Rahimi A, Amiri S (2015) Self-healing hybrid nanocomposite coatings with encapsulated organic corrosion inhibitors. J Polym Res 22:624
5. Wojtecki RJ, Meador MA, Rowan SJ (2011) Using the dynamic bond to access macroscopically responsive structurally dynamic polymers. Nat Mater 10:14–27
6. Zhang MQ, Rong MZ (2012) Theoretical consideration and modeling of self‐healing polymers. J Polym Sci Part B Polym Phys 50:229–241
7. Wei Z, Yang JH, Zhou JX, Xu F, Zrínyi M, Dussault PH, Osada Y, Chen YM (2014) Self-healing gels based on constitutional dynamic chemistry and their potential applications. Chem Soc Rev. doi:10.1039/c4cs00219a
8. Zhang MQ, Rong MZ (2012) Design and synthesis of self-healing polymers. Sci Chin Chem 55:648–676
9. Li SL, Han P, Xu HP (2012) Self-healing polymeric materials. Prog Chem 24:1346–1352 (in Chinese)
10. Murphy EB, Wudl F (2010) The world of smart healable materials. Prog Polym Sci 35:223–251
11. Kloxin CJ, Scott TF, Adzima BJ, Bowman CN (2010) Covalent Adaptable Networks (CANs): a unique paradigm in cross-linked polymers. Macromolecules 43:2643–2653
12. Binder WH (2013) Self-healing polymers: from principles to applications. Wiley-VCH, Weinheim
13. Blaiszik BJ, Kramer SLB, Olugebefola SC, Moore JS, Sottos NR, White SR (2010) Self-healing polymers and composites. Annu Rev Mater Res 40:179–211
14. Hager MD, Greil P, Leyens C, van der Zwaag S, Schubert US (2010) Self-healing materials. Adv Mater 22:5424–5430
15. Billiet S, Hillewaere XKD, Teixeira RFA, Du Prez FE (2013) Chemistry of crosslinking processes for self-healing polymers. Macromol Rapid Commun 34:290–309
16. White SR, Sottos NR, Geubelle PH, Moore JS, Kessler MR, Sriram SR, Brown EN, Viswanathan S (2001) Autonomic healing of polymer composites. Nature 409:794–797
17. Neuser S, Michaud V, White SR (2012) Improving solvent-based self-healing materials through shape memory alloys. Polymer 53:370–378
18. Fickert J, Makowski M, Kappl M, Landfester K, Crespy D (2012) Efficient encapsulation of self-healing agents in polymer nanocontainers functionalized by orthogonal reactions. Macromolecules 45:6324–6332
19. Chuo TW, Wei TC, Liu YL (2013) Electrically driven self-healing polymers based on reversible guest–host complexation of β-cyclodextrin and ferrocene. J Polym Sci Part A Polym Chem 51:3395–3403
20. Sheridan RJ, Bowman CN (2013) Understanding the process of healing of thermoreversible covalent adaptable networks. Polym Chem 4:4974–4979
21. Chen YL, Kushner AM, Williams GA, Guan ZB (2012) Multiphase design of autonomic self-healing thermoplastic elastomers. Nat Chem 4:467–472
22. Lu YX, Guan ZB (2012) Olefin metathesis for effective polymer healing via dynamic exchange of strong carbon–carbon double bonds. J Am Chem Soc 134:14226–14231
23. Deng GH, Li FY, Yu HX, Liu FY, Liu CY, Sun WX, Jiang HF, Chen YM (2012) Dynamic hydrogels with an environmental adaptive self-healing ability and dual responsive sol–gel transitions. ACS Macro Lett 1:275–279
24. Ying HZ, Zhang YF, Cheng JJ (2014) Dynamic urea bond for the design of reversible and self-healing polymers. Nat Commun. doi:10.1038/ncomms4218
25. Ling J, Rong MZ, Zhang MQ (2011) Coumarin imparts repeated photochemical remendability to polyurethane. J Mater Chem 21:18373–18380
26. Froimowicz P, Frey H, Landfester K (2011) You have full text access to this content towards the generation of self-healing materials by means of a reversible photo-induced approach. Macromol Rapid Commun 32:468–473
27. Chen XX, Dam MA, Ono K, Mal A, Shen HB, Nutt SR, Sheran K, Wudl F (2002) A thermally Re-mendable cross-linked polymeric material. Science 295:1698–1702
28. Scheltjens G, Diaz MM, Brancart J, Van Assche G, Van Mele B (2013) A self-healing polymer network based on reversible covalent bonding. React Funct Polym 73:413–420
29. Tian Q, Yuan YC, Rong MZ, Zhang MQ (2009) A thermally remendable epoxy resin. J Mater Chem 19:1289–1296
30. Zhang YC, Broekhuis AA, Picchioni F (2009) Thermally self-healing polymeric materials: the next step to recycling thermoset polymers. Macromolecules 42:1906–1912
31. Yang B, Zhang YL, Zhang XY, Tao L, Li SX, Wei Y (2012) Facilely prepared inexpensive and biocompatible self-healing hydrogel: a new injectable cell therapy carrier. Polym Chem 3:3235–3238
32. Ono T, Noboriab T, Lehn JM (2005) Dynamic polymer blends—component recombination between neat dynamic covalent polymers at room temperature. Chem Commun 1522–1524
33. Kamada J, Koynov K, Corten C, Juhari A, Yoon JA, Urban MW, Balazs AC, Matyjaszewski K (2010) Redox responsive behavior of thiol/disulfide-functionalized star polymers synthesized via atom transfer radical polymerization. Macromolecules 43:4133–4139
34. Canadell J, Goossens H, Klumperman B (2011) Self-healing materials based on disulfide links. Macromolecules 44:2536–2541
35. Lafont U, van Zeijl H, van der Zwaag S (2012) Influence of cross-linkers on the cohesive and adhesive self-healing ability of polysulfide-based thermosets. ACS Appl Mater Interfaces 4:6280–6288
36. Yoon JA, Kamada J, Koynov K, Mohin J, Nicolaÿ R, Zhang YZ, Balazs AC, Kowalewski T, Matyjaszewski K (2012) Self-healing polymer films based on thiol–disulfide exchange reactions and self-healing kinetics measured using atomic force microscopy. Macromolecules 45:142–149
37. Zhang YL, Tao L, Li SX, Wei Y (2011) Synthesis of multiresponsive and dynamic chitosan-based hydrogels for controlled release of bioactive molecules. Biomacromolecules 12:2894–2901
38. Xu ZY, Peng JX, Yan N, Yu H, Zhang SS, Liu KQ, Fang Y (2013) Simple design but marvelous performances: molecular gels of superior strength and self-healing properties. Soft Matter 9:1091–1099
39. Nakahata M, Takashima Y, Yamaguchi H, Harada A (2011) Redox-responsive self-healing materials formed from host–guest polymers. Nat Commun 2:511. doi:10.1038/ncomms1521
40. Cui JX, del Campo A (2012) Multivalent H-bonds for self-healing hydrogels. Chem Commun 48:9302–9304
41. Burattini S, Greenland BW, Merino DH, Weng WG, Seppala J, Colquhoun HM, Hayes W, Mackay ME, Hamley IW, Rowan SJ (2010) A healable supramolecular polymer blend based on aromatic π-π stacking and hydrogen-bonding interactions. J Am Chem Soc 132:12051–12058
42. Burattini S, Colquhoun HM, Fox JD, Friedmann D, Greenland BW, Harris PJF, Hayes W, Mackay ME, Rowan SJ (2009) A Self-repairing, supramolecular polymer system: healability as a consequence of donor–acceptor π-π stacking interactions. Chem Commun 6717–6719
43. Burnworth M, Tang LM, Kumpfer JR, Duncan AJ, Beyer FL, Fiore GL, Rowan SJ, Weder C (2011) Optically healable supramolecular polymers. Nature 472:334–338
44. Fox J, Wie JJ, Greenland BW, Burattini S, Hayes W, Colquhoun HM, Mackay ME, Rowan SJ (2012) High-strength, healable, supramolecular polymer nanocomposites. J Am Chem Soc 134:5362–5368
45. Smith AE, Xu XW, McCormick CL (2010) Stimuli-responsive amphiphilic (co) polymers via RAFT polymerization. Prog Polym Sci 35:45–93
46. Cheng CJ, Bai XX, Liu SJ, Huang QH, Tu YM, Wu HM, Wang XJ (2013) UV cured polymer based on a renewable cardanol derived RAFT agent. J Polym Res 20:197
47. Ma JY, Zhang HX (2014) Preparation and characterization of poly(methyl methacrylate)/SiO2 organic–inorganic hybrid materials via RAFT-mediated miniemulsion Polymerization. J Polym Res 21:590
48. Pan GQ, Zhang Y, Ma Y, Li CX, Zhang HQ (2011) Efficient One‐Pot synthesis of water‐compatible molecularly imprinted polymer microspheres by facile RAFT precipitation polymerization. Angew Chem Int Ed 50:11731–11734
49. Wang ZX, Zhang QH, Zhan XL, Chen FQ, Rao GH, Xiong JH (2013) Preparation, kinetics and microstructures of well-defined PS-b-PS/Bd diblock copolymers via RAFT miniemulsion polymerization. J Polym Res 20:288
50. Ganjeh-Anzabi P, Haddadi-Asl V, Salami-Kalajahi M, Abdollahi M (2013) Kinetic investigation of the reversible addition-fragmentation chain transfer polymerization of 1,3-butadiene. J Polym Res 20:248
51. 2. J Polym Sci A Polym Chem 47:3702–3709
52. Kim JS, Youk JH (2009) Preparation of core cross-linked micelles using a photo-cross-linking agent. Polymer 50:2204–2208
53. Amamoto Y, Kamada J, Otsuka H, Takahara A, Matyjaszewski K (2011) Repeatable photoinduced self-healing of covalently cross-linked polymers through reshuffling of trithiocarbonate units. Angew Chem Int Ed 50:1660–1663