Bioadhesives have emerged as transformative and versatile tools in healthcare, offering the
ability to attach tissues with ease and minimal damage. These materials present numerous …

Achieving strong adhesion between the interfaces of similar and dissimilar materials is
highly desirable in various fields. However, the adhesion of common adhesives is …

The peeling apart of layered materials is common in nature and has been used by humans
in myriad applications since prehistoric times. Over the past century, a wide range of peel …

Advances in flexible and stretchable electronics have enabled an unprecedented level of
coupling between electronics and bio-tissues by overcoming obstacles associated with the …

Recent advances in soft materials and system integration technologies have provided a
unique opportunity to design various types of wearable flexible hybrid electronics (WFHE) …

Recent advances in the design and implementation of wearable resistive, capacitive, and
optical strain sensors are summarized herein. Wearable and stretchable strain sensors have …

On‐skin electrodes function as an ideal platform for collecting high‐quality
electrophysiological (EP) signals due to their unique characteristics, such as stretchability …

In the course of evolution nature has arrived at startling materials solutions to ensure
survival. Investigations into biological surfaces, ranging from plants, insects and geckos to …

Electronic skin (e‐skin) technology is an exciting frontier to drive the next generation of
wearable electronics owing to its high level of wearability, enabling high accuracy to harvest …

Wearable or attachable health monitoring smart systems are considered to be the next
generation of personal portable devices for remote medicine practices. Smart flexible …