Flexible Conformally Bioadhesive MXene Hydrogel Electronics for Machine Learning‐Facilitated Human‐Interactive Sensing
Beijing University of Chemical Technology
Abstract
Wearable epidermic electronics assembled from conductive hydrogels are attracting various research attention for their seamless integration with human body for conformally real-time health monitoring, clinical diagnostics and medical treatment, and human-interactive sensing. Nevertheless, it remains a tremendous challenge to simultaneously achieve conformally bioadhesive epidermic electronics with remarkable self-adhesiveness, reliable ultraviolet (UV) protection ability, and admirable sensing performance for high-fidelity epidermal electrophysiological signals monitoring, along with timely photothermal therapeutic performances after medical diagnostic sensing, as well as efficient antibacterial activity and…
Citation impact
- FWCI
- 35.57
- Percentile
- 100%
- References
- 69
Authors
6Topics & keywords
- Bioadhesive
- Materials science
- Electronics
- Wearable computer
- Nanotechnology
- Biocompatibility
- Biomedical engineering
- Photothermal therapy