Wearable bioelectronic patches are creating a transformative effect in the health care
industry for human physiological signal monitoring. However, the use of such patches is …

Self-powered skin electronics capable of energy harvesting and health monitoring is being
regarded as the next-generation wearable system, with broad applications both for …

Flexible and wearable e-skin sensors are attracting a great interest for their smart sensing
applications in next-generation electronics. However, implant ability, sensitivity, and …

Epidermal electronics offer an important platform for various on-skin applications including
electrophysiological signals monitoring and human–machine interactions (HMI), due to their …

Epidermal electrophysiological monitoring has garnered significant attention for its potential
in medical diagnosis and healthcare, particularly in continuous signal recording. However …

On‐skin electronics can be conformably deployed on body for health monitoring, assisted
living, and human/computer interfaces. However, developing corresponding energy devices …

The advancement of electronic skin envisions novel multifunctional human machine
interfaces. Although motion sensing by detecting contact locations is popular and widely …

Numerous wearable devices were developed to measure bioelectric signals for continuous
healthcare monitoring. The electrode, which interconnects electronics and the human body …

Epidermal electrodes for long-term electrophysiological signals monitoring have great
potentials in bioelectronics such as health monitoring, disease diagnosis, and human …

Flexible and wearable piezoelectric bio e-skin (PBio-e-skin) based on electrospun poly (L-
lactic acid) PLLA nanofiber membrane is demonstrated for non-invasive human …