Mechanically Robust, Electrically Conductive and Stimuli-Responsive Binary Network Hydrogels Enabled by Superelastic Graphene Aerogels

Mechanically Robust, Electrically Conductive and Stimuli-Responsive Binary Network Hydrogels Enabled by Superelastic Graphene Aerogels

The architecture of the nanofiller phase in polymer nanocomposites matters! Polymer hydrogels that can combine stimuli‐responsiveness with excellent electrically conductivity and mechanical strength can be fabricated by incorporation of the polymer into an ultralight and superelastic graphene aeroge...

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Veröffentlicht in:Advanced materials (Weinheim) 2014-05, Vol.26 (20), p.3333-3337
Hauptverfasser: Qiu, Ling, Liu, Diyan, Wang, Yufei, Cheng, Chi, Zhou, Kun, Ding, Jie, Truong, Van-Tan, Li, Dan
Format: Artikel
Sprache:eng
Schlagworte:
Acrylic Resins - chemical synthesis
Acrylic Resins - chemistry
aerogel
Aerogels
binary network
Compressive Strength
Elasticity
Electric Conductivity
Electrically conductive
Graphene
Graphite - chemistry
hydrogel
Hydrogels
Hydrogels - chemical synthesis
Hydrogels - chemistry
Materials Testing
Microscopy, Electron, Scanning
Nanocomposites
Nanocomposites - chemistry
Nanostructure
Networks
stimuli-responsive
Superelasticity
Temperature
Water - chemistry
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Zusammenfassung:The architecture of the nanofiller phase in polymer nanocomposites matters! Polymer hydrogels that can combine stimuli‐responsiveness with excellent electrically conductivity and mechanical strength can be fabricated by incorporation of the polymer into an ultralight and superelastic graphene aerogel to form a binary network.
ISSN:0935-9648
1521-4095
DOI:10.1002/adma.201305359