Recent advancements in wearable electronics offer seamless integration with the human
body for extracting various biophysical and biochemical information for real-time health …

The advancement of the Internet of Things/5G infrastructure requires a low‐cost ubiquitous
sensory network to realize an autonomous system for information collection and processing …

Stretchable hybrid devices have enabled high-fidelity implantable,–and on-skin,–monitoring
of physiological signals. These devices typically contain soft modules that match the …

Multifunctional wearable electronic devices based on natural materials are highly desirable
for versatile applications of energy conversion, electronic skin and artificial intelligence …

With the development of 5G and Internet of Things (IoT), the era of big data‐driven product
design is booming. In addition, artificial intelligence (AI) is also emerging and evolving by …

Catastrophically mechanical failure of soft self-healing materials is unavoidable due to their
inherently poor resistance to crack propagation. Here, with a model system, ie, soft self …

Soft self‐healing materials are compelling candidates for stretchable devices because of
their excellent compliance, extensibility, and self‐restorability. However, most existing soft …

Soft electronics are rising electronic technologies towards applications spanning from
healthcare monitoring to medical implants. However, poor adhesion strength and significant …

On-skin and implantable electronics require elastic conductors that are only a few
micrometres thick and soft enough to form a seamless contact with three-dimensional …

Polymers are extensively exploited as active materials in a variety of electronics and energy
devices because of their tailorable electrical properties, mechanical flexibility, facile …