Traditional public health systems are suffering from limited, delayed, and inefficient medical
services, especially when confronted with the pandemic and the aging population. Fusing …

Cardiovascular diseases account for the highest mortality globally, but recent advances in
wearable technologies may potentially change how these illnesses are diagnosed and …

On‐skin electronics that offer revolutionary capabilities in personalized diagnosis,
therapeutics, and human–machine interfaces require seamless integration between the skin …

Electronic skins (E‐skins) capable of biomechanical/bioelectrical signal acquisition are
intensively pursued for human‐centered healthcare of daily life. For practical use, it is highly …

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

Over the past few decades, flexible sensors have been developed from the “electronic” level
to the “iontronic” level, and gradually to the “ionic” level. Ionic flexible sensors (IFS) are one …

Recent advances in nanostructured materials and unconventional device designs have
transformed the bioelectronics from a rigid and bulky form into a soft and ultrathin form and …

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

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

The practical applications of skin‐interfaced sensors and devices in daily life hinge on the
rational design of surface wettability to maintain device integrity and achieve improved …