Bioelectronic devices and components made from soft, polymer-based and hybrid electronic
materials form natural interfaces with the human body. Advances in the molecular design of …

High-performance wearable and implantable devices capable of recording physiological
signals and delivering appropriate therapeutics in real time are playing a pivotal role in …

Bioelectronics can transduce signals across the tissue and device interface to measure and
regulate biological activities for healthcare monitoring and diseases treatment. Currently, a …

Skin‐mountable electronic materials are being intensively evaluated for use in bio‐
integrated devices that can mutually interact with the human body. Over the past decade …

Conspectus Future electronics will take on more important roles in people's lives. They need
to allow more intimate contact with human beings to enable advanced health monitoring …

Since wearable technologies for telemedicine have emerged to tackle global health
concerns, the demand for well‐attested wearable healthcare devices with high user comfort …

Skin-inspired wearable electronic/biomedical systems based on functional nanomaterials
with exceptional electrical and mechanical properties have revolutionized wearable …

Medical science technology has improved tremendously over the decades with the invention
of robotic surgery, gene editing, immune therapy, etc. However, scientists are now …

Materials used in wearable and implantable electronic devices should match the
mechanical properties of biological tissues, which are inherently soft and deformable. In …

Soft electronic devices, particularly for healthcare applications, have been intensively
studied over the past decade owing to their unique advantages over conventional rigid …