Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events
Polymers are susceptible to small damage which is difficult to detect and repair and may lead to catastrophic failure if left unattended at the early stage. How to autonomously warn and repair the damage simultaneously is a promising yet challenging task, owing to the difficulty in integrating diffe...
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sg-ntu-dr.10356-1513192021-07-06T03:35:28Z Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events Zhang, He Zhang, Xin Bao, Chenlu Li, Xin Duan, Fei Friedrich, Klaus Yang, Jinglei School of Civil and Environmental Engineering School of Mechanical and Aerospace Engineering Engineering::Materials Color Organic Polymers Polymers are susceptible to small damage which is difficult to detect and repair and may lead to catastrophic failure if left unattended at the early stage. How to autonomously warn and repair the damage simultaneously is a promising yet challenging task, owing to the difficulty in integrating different functional elements for packaging and lack of suitable vehicles to carry a multirole trigger with high reactivity. Herein, inspired by human skin in the damage-healing process, we report a genuinely fully autonomous smart material that is capable of warning of and healing damage via simply incorporating dual microcapsules containing polyamine as a multirole trigger and epoxy monomer dyed with a pH indicator, respectively. Both microscopic "subcutaneous" damage and macroscopic surface damage can be warned of by a conspicuous red color, not only rapidly upon occurrence but also permanently after being repaired. Accompanied with the comprehensive warning, the smart material shows high healing performance upon dynamic impact damage with efficiency up to 100% without external interventions. This facile and ready strategy with fully autonomous warning and healing functions independent of the host matrix provides a new avenue to enhance the reliability and longevity of a wide variety of polymeric materials ranging from functional coatings to structural composites. We thank the SUG from HKUST (R9365) and Hong Kong Research Grants Council (Project No. N_HKUST631/18), the Key Program of National Natural Science Foundation of China (Grant No. 51435005), the National Instrumentation Program (Grant No. 2012YQ230043), the Science and Technology Program of Guangzhou (Grant No. 201607010240), and the Science and Technology Planning Project of Guangdong Province (Grant No. 2015B090904004 and 2018A030313264), for financial support. 2021-07-06T03:35:28Z 2021-07-06T03:35:28Z 2019 Journal Article Zhang, H., Zhang, X., Bao, C., Li, X., Duan, F., Friedrich, K. & Yang, J. (2019). Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events. Chemistry of Materials, 31(7), 2611-2618. https://dx.doi.org/10.1021/acs.chemmater.9b00398 0897-4756 0000-0001-7864-0305 0000-0002-2956-0103 0000-0002-7469-7184 0000-0002-9413-9016 https://hdl.handle.net/10356/151319 10.1021/acs.chemmater.9b00398 2-s2.0-85064265028 7 31 2611 2618 en Chemistry of Materials © 2019 American Chemical Society. All rights reserved. |
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Engineering::Materials Color Organic Polymers |
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Engineering::Materials Color Organic Polymers Zhang, He Zhang, Xin Bao, Chenlu Li, Xin Duan, Fei Friedrich, Klaus Yang, Jinglei Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events |
| description |
Polymers are susceptible to small damage which is difficult to detect and repair and may lead to catastrophic failure if left unattended at the early stage. How to autonomously warn and repair the damage simultaneously is a promising yet challenging task, owing to the difficulty in integrating different functional elements for packaging and lack of suitable vehicles to carry a multirole trigger with high reactivity. Herein, inspired by human skin in the damage-healing process, we report a genuinely fully autonomous smart material that is capable of warning of and healing damage via simply incorporating dual microcapsules containing polyamine as a multirole trigger and epoxy monomer dyed with a pH indicator, respectively. Both microscopic "subcutaneous" damage and macroscopic surface damage can be warned of by a conspicuous red color, not only rapidly upon occurrence but also permanently after being repaired. Accompanied with the comprehensive warning, the smart material shows high healing performance upon dynamic impact damage with efficiency up to 100% without external interventions. This facile and ready strategy with fully autonomous warning and healing functions independent of the host matrix provides a new avenue to enhance the reliability and longevity of a wide variety of polymeric materials ranging from functional coatings to structural composites. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Zhang, He Zhang, Xin Bao, Chenlu Li, Xin Duan, Fei Friedrich, Klaus Yang, Jinglei |
| format |
Article |
| author |
Zhang, He Zhang, Xin Bao, Chenlu Li, Xin Duan, Fei Friedrich, Klaus Yang, Jinglei |
| author_sort |
Zhang, He |
| title |
Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events |
| title_short |
Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events |
| title_full |
Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events |
| title_fullStr |
Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events |
| title_full_unstemmed |
Skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events |
| title_sort |
skin-inspired, fully autonomous self-warning and self-repairing polymeric material under damaging events |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151319 |
| _version_ |
1705151301736726528 |