The rapid development of wearable and implantable electronics has enabled the real-time
transmission of electrophysiological signals in situ, thus allowing the precise monitoring and …

Sensing bioelectrical signals is of great significance to understand human disease. Reliable
bioelectronic interface is the guarantee of high‐quality bioelectrical signals. The unique …

Stretchable sensors based on conductive hydrogels have attracted considerable attention
for wearable electronics. However, their practical applications have been limited by the low …

The growing demand for stretchable conductor materials in flexible electronic technologies
has led to increased focus on develo** conductive gels. However, existing hydrogels …

Since the discovery of conducting polyacetylene in the 1970s, intrinsically conducting
polymers (ICPs) have attracted great attention because of their interesting structure …

Long‐term biopotential monitoring requires high‐performance biocompatible wearable dry
electrodes. But currently, it is challenging to establish a form‐preserving fit with the skin …

Wearable dry electrodes are the foundation for the development of long-term, real-time
biopotential monitoring devices. However, the physiological signals collected by common …

Realizing an electrode that can stably monitor biosignals after multiple exposures to sweat is
challenging. Utilizing a Janus electrode, which is composed of a stack of ultrathin …

In recent years, there has been a growing interest in exploring stretchable conductive
composites for flexible electronics applications. Organic p-type composites with excellent …

Bioelectronics, which can perform monitoring and biological signal collection of strain,
pressure, and temperature at the same time, have attracted more and more attentions. To …