Fibers, originating from nature and mastered by human, have woven their way throughout
the entire history of human civilization. Recent developments in semiconducting polymer …

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 …

Wearable dry electrodes are needed for long-term biopotential recordings but are limited by
their imperfect compliance with the skin, especially during body movements and sweat …

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

Skin is the largest organ, with the functionalities of protection, regulation, and sensation. The
emulation of human skin via flexible and stretchable electronics gives rise to electronic skin …

Bio-integrated wearable systems can measure a broad range of biophysical, biochemical,
and environmental signals to provide critical insights into overall health status and to …

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 …

With the prospect of a smart society in the foreseeable future, humans are experiencing an
increased link to electronics in the digital world, which can benefit our life and productivity …

Highly conductive and intrinsically stretchable electrodes are vital components of soft
electronics such as stretchable transistors and circuits, sensors and actuators, light-emitting …

Wearable sensors have gained much attention due to their potential in personal health
monitoring in a timely, cost‐effective, easy‐operating, and noninvasive way. In recent …