A high performance wearable strain sensor with advanced thermal management for motion monitoring
Qingdao University · Ocean University of China · +4 more institutions
Abstract
Resistance change under mechanical stimuli arouses mass operational heat, damaging the performance, lifetime, and reliability of stretchable electronic devices, therefore rapid thermal heat dissipating is necessary. Here we report a stretchable strain sensor with outstanding thermal management. Besides a high stretchability and sensitivity testified by human motion monitoring, as well as long-term durability, an enhanced thermal conductivity from the casted thermoplastic polyurethane-boron nitride nanosheets layer helps rapid heat transmission to the environments, while the porous electrospun fibrous thermoplastic polyurethane membrane leads to thermal insulation. A 32% drop of the real time saturated…
Citation impact
- FWCI
- 26.65
- Percentile
- 100%
- References
- 73
Authors
11Topics & keywords
- Wearable computer
- Thermal management of electronic devices and systems
- Strain (injury)
- Motion sensors
- Wearable technology
- Motion (physics)
- Computer science
- Medicine
- Affordable and clean energy