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Shape-memory-assisted self-healing of macroscopic punctures via high-energy-density periodic dynamic polymers with tunable actuation temperature
Yuran Shi
, Christopher B. Cooper
, Tomoko Nogusa
, Jian Cheng Lai
, Hao Lyu
, Muhammad Khatib
, Chengyi Xu
, Lukas Michalek
, Zhenan Bao
Department of Energy, Environmental & Chemical Engineering
Department of Mechanical Engineering & Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
16
Scopus citations
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Dive into the research topics of 'Shape-memory-assisted self-healing of macroscopic punctures via high-energy-density periodic dynamic polymers with tunable actuation temperature'. Together they form a unique fingerprint.
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Keyphrases
Self-healing
100%
Shape Memory
100%
High Energy Density
100%
Periodic Dynamics
100%
Dynamic Polymers
100%
Actuation Temperature
100%
Shape Memory Polymer
100%
Self-healable
60%
Hydrogen Bonds (H-bonds)
40%
High Energy
40%
Energy Density
40%
High Sensitivity
20%
Maximum Load
20%
Strain-induced
20%
Knife
20%
Rapid Healing
20%
Force Sensor
20%
Wearable Devices
20%
Soft Robotics
20%
Wearable Electronics
20%
High Cyclability
20%
Healable
20%
Supramolecular Nanostructures
20%
Actuation Energy
20%
Self-healing Behavior
20%
Material Science
Shape Memory
100%
Polymer Dynamics
100%
High Energy Density
100%
Shape Memory Polymer
100%
Energy Density
40%
Film
20%
Nanostructure
20%
Wearable Sensor
20%
Wearable Electronics
20%