Flexible Bioinspired Healable Antibacterial Electronics for Intelligent Human-Machine Interaction Sensing.
Kuo LiuMingcheng WangChenlin HuangYue YuanYao NingLiqun ZhangPengbo WanPublished in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2023)
Flexible electronic sensors are receiving numerous research interests for their potential in electronic skins (e-skins), wearable human-machine interfacing, and smart diagnostic healthcare sensing. However, the preparation of multifunctional flexible electronics with high sensitivity, broad sensing range, fast response, efficient healability, and reliable antibacterial capability is still a substantial challenge. Herein, bioinspired by the highly sensitive human skin microstructure (protective epidermis/spinous sensing structure/nerve conduction network), a skin bionic multifunctional electronics is prepared by face-to-face assembly of a newly prepared healable, recyclable, and antibacterial polyurethane elastomer matrix with conductive MXene nanosheets-coated microdome array after ingenious templating method as protective epidermis layer/sensing layer, and an interdigitated electrode as signal transmission layer. The polyurethane elastomer matrix functionalized with triple dynamic bonds (reversible hydrogen bonds, oxime carbamate bonds, and copper (II) ion coordination bonds) is newly prepared, demonstrating excellent healability with highly healing efficiency, robust recyclability, and reliable antibacterial capability, as well as good biocompatibility. Benefiting from the superior mechanical performance of the polyurethane elastomer matrix and the unique skin bionic microstructure of the sensor, the as-assembled flexible electronics exhibit admirable sensing performances featuring ultrahigh sensitivity (up to 1573.05 kPa -1 ), broad sensing range (up to 325 kPa), good reproducibility, the fast response time (≈4 ms), and low detection limit (≈0.98 Pa) in diagnostic human healthcare monitoring, excellent healability, and reliable antibacterial performance.
Keyphrases
- healthcare
- endothelial cells
- silver nanoparticles
- wound healing
- induced pluripotent stem cells
- drug delivery
- multiple sclerosis
- white matter
- pluripotent stem cells
- tissue engineering
- quantum dots
- blood pressure
- cancer therapy
- risk assessment
- ms ms
- heart rate
- solid state
- reduced graphene oxide
- social media
- human health
- loop mediated isothermal amplification
- solid phase extraction