Fully Polymeric Conductive Hydrogels with Low Hysteresis and High Toughness as Multi‐Responsive and Self‐Powered Wearable Sensors
Henan University of Science and Technology · Shanghai Jiao Tong University
Abstract
Abstract High mechanical strength, excellent toughness, low hysteresis, and robust resilience are of great importance for stretchable conductive hydrogels (CHs) to heighten their reliabilities for self‐powered sensing applications. However, it still remains challenging to simultaneously obtain the mutually exclusive performances. Herein, an intrinsically conductive and adhesive hydrogel is fabricated by one‐step radical polymerization of acrylamide (AAm), three hydroxy groups together clustered‐N‐[tris(hydroxymethyl)methyl]acrylamide (THMA), and cationic 1‐Butyl‐3‐Vinylimidazolium Bromide (ILs) dissolved in core‐shell structurally dispersed PEDOT:PSS (PP) solution. Owing to abundant clustered hydrogen bonds,…
Citation impact
- FWCI
- 24.05
- Percentile
- 100%
- References
- 73
Authors
11Topics & keywords
- Materials science
- Self-healing hydrogels
- Hysteresis
- Toughness
- Wearable computer
- Self-healing
- Electrical conductor
- Wearable technology