Tài liệu tham khảo |
Loại |
Chi tiết |
1. Lendlein, A. and S. Kelch, Shape‐memory polymers. Angewandte Chemie International Edition, 2002. 41(12): p. 2034-2057 |
Sách, tạp chí |
Tiêu đề: |
Shape‐memory polymers |
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2. Jorcin, J.-B., et al., Investigation of the self-healing properties of shape memory polyurethane coatings with the ‘odd random phase multisine’electrochemical impedance spectroscopy. Electrochimica Acta, 2010. 55(21): p. 6195-6203 |
Sách, tạp chí |
Tiêu đề: |
Investigation of the self-healing properties of shape memory polyurethane coatings with the ‘odd random phase multisine’electrochemical impedance spectroscopy |
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3. Lutz, A., et al., A shape-recovery polymer coating for the corrosion protection of metallic surfaces. ACS applied materials & interfaces, 2014. 7(1): p. 175- 183 |
Sách, tạp chí |
Tiêu đề: |
A shape-recovery polymer coating for the corrosion protection of metallic surfaces |
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4. Kirkby, E., et al., Performance of self-healing epoxy with microencapsulated healing agent and shape memory alloy wires. Polymer, 2009. 50(23): p. 5533- 5538 |
Sách, tạp chí |
Tiêu đề: |
Performance of self-healing epoxy with microencapsulated healing agent and shape memory alloy wires |
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5. Kirkby, E.L., et al., Embedded Shape‐Memory Alloy Wires for Improved Performance of Self‐Healing Polymers. Advanced Functional Materials, 2008.18(15): p. 2253-2260 |
Sách, tạp chí |
Tiêu đề: |
Embedded Shape‐Memory Alloy Wires for Improved Performance of Self‐Healing Polymers |
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6. Li, G., O. Ajisafe, and H. Meng, Effect of strain hardening of shape memory polymer fibers on healing efficiency of thermosetting polymer composites.Polymer, 2013. 54(2): p. 920-928 |
Sách, tạp chí |
Tiêu đề: |
Effect of strain hardening of shape memory polymer fibers on healing efficiency of thermosetting polymer composites |
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7. Li, G. and P. Zhang, A self-healing particulate composite reinforced with strain hardened short shape memory polymer fibers. Polymer, 2013. 54(18):p. 5075-5086 |
Sách, tạp chí |
Tiêu đề: |
A self-healing particulate composite reinforced with strain hardened short shape memory polymer fibers |
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8. Rodriguez, E.D., X. Luo, and P.T. Mather, Linear/network poly (ε- caprolactone) blends exhibiting shape memory assisted self -healing (SMASH). ACS applied materials & interfaces, 2011. 3(2): p. 152-161 |
Sách, tạp chí |
Tiêu đề: |
Linear/network poly (ε-caprolactone) blends exhibiting shape memory assisted self -healing (SMASH) |
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9. Luo, X. and P.T. Mather, Shape memory assisted self-healing coating. ACS Macro Letters, 2013. 2(2): p. 152-156 |
Sách, tạp chí |
Tiêu đề: |
Shape memory assisted self-healing coating |
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10. Zhang, H. and Y. Zhao, Polymers with dual light-triggered functions of shape memory and healing using gold nanoparticles. ACS applied materials &interfaces, 2013. 5(24): p. 13069-13075 |
Sách, tạp chí |
Tiêu đề: |
Polymers with dual light-triggered functions of shape memory and healing using gold nanoparticles |
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11. Nguyen, L.-T.T., H.T. Nguyen, and T.T. Truong, Thermally mendable material based on a furyl-telechelic semicrystalline polymer and a maleimide crosslinker. Journal of Polymer Research, 2015. 22(9): p. 1-9 |
Sách, tạp chí |
Tiêu đề: |
Thermally mendable material based on a furyl-telechelic semicrystalline polymer and a maleimide crosslinker |
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12. Nguyen, L.-T.T., et al., Healable shape memory (thio) urethane thermosets. Polymer Chemistry, 2015. 6(16): p. 3143-3154 |
Sách, tạp chí |
Tiêu đề: |
Healable shape memory (thio) urethane thermosets |
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13. Basko, M., et al., Functionalization of polyurethanes by incorporation of alkyne side-groups to oligodiols and subsequent thiol–yne post-modification.European Polymer Journal, 2013. 49(11): p. 3573-3581 |
Sách, tạp chí |
Tiêu đề: |
Functionalization of polyurethanes by incorporation of alkyne side-groups to oligodiols and subsequent thiol–yne post-modification |
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14. Hoyle, C.E., A.B. Lowe, and C.N. Bowman, Thiol-click chemistry: a multifaceted toolbox for small molecule and polymer synthesis. Chemical Society Reviews, 2010. 39(4): p. 1355-1387 |
Sách, tạp chí |
Tiêu đề: |
Thiol-click chemistry: a multifaceted toolbox for small molecule and polymer synthesis |
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15. Cramer, N.B., J.P. Scott, and C.N. Bowman, Photopolymerizations of thiol− ene polymers without photoinitiators. Macromolecules, 2002. 35(14): p. 5361- 5365 |
Sách, tạp chí |
Tiêu đề: |
Photopolymerizations of thiol− "ene polymers without photoinitiators |
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16. Hoyle, C.E., T.Y. Lee, and T. Roper, Thiol–enes: chemistry of the past with promise for the future. Journal of Polymer Science Part A: Polymer Chemistry, 2004. 42(21): p. 5301-5338 |
Sách, tạp chí |
Tiêu đề: |
Thiol–enes: chemistry of the past with promise for the future |
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17. Cramer, N.B. and C.N. Bowman, Kinetics of thiol–ene and thiol–acrylate photopolymerizations with real‐time fourier transform infrared. Journal of Polymer Science Part A: Polymer Chemistry, 2001. 39(19): p. 3311-3319 |
Sách, tạp chí |
Tiêu đề: |
Kinetics of thiol–ene and thiol–acrylate photopolymerizations with real‐time fourier transform infrared |
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18. Lecamp, L., et al., Photoinitiated cross-linking of a thiol–methacrylate system. Polymer, 2001. 42(7): p. 2727-2736 |
Sách, tạp chí |
Tiêu đề: |
Photoinitiated cross-linking of a thiol–methacrylate system |
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19. Chattopadhyay, D.K. and K. Raju, Structural engineering of polyurethane coatings for high performance applications. Progress in polymer science, 2007. 32(3): p. 352-418 |
Sách, tạp chí |
Tiêu đề: |
Structural engineering of polyurethane coatings for high performance applications |
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20. Kubisa, P. and S. Penczek, Cationic activated monomer polymerization of heterocyclic monomers. Progress in polymer science, 1999. 24(10): p. 1409- 1437 |
Sách, tạp chí |
Tiêu đề: |
Cationic activated monomer polymerization of heterocyclic monomers |
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