Hydrogel-based conductive materials for smart wearable devices have attracted increasing
attention due to their excellent flexibility, versatility, and outstanding biocompatibility. This …

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 …

Conductive hydrogels (CHs) are regarded as one of the most promising materials for
bioelectronic devices on human‐machine interfaces (HMIs). However, conventional CHs …

Multifunctional hydrogels, particularly with superior mechanical properties and using
green/sustainable approaches, have attracted increasing attention because of their many …

Surface electromyography (sEMG) is used to detect and analyze human muscle
biopotential. Recently, flexible noninvasive electrodes (FNEs) have emerged to extract …

Conspectus Self-healing ability is one of the most attractive features of biological tissues, as
it helps living creatures to recover physiological functions and prolongs their lifespans after …

Conducting polymer hydrogels are typically employed in all-gel supercapacitors; however,
Poly [3, 4-ethylene-dioxythiophene](PEDOT)-based hydrogel supercapacitors still suffer …

Biosensors are increasingly taking a more active role in health science. The current needs
for the constant monitoring of biomedical signals, as well as the growing spending on public …

The electroencephalogram (EEG) is considered to be a promising method for studying brain
disorders. Because of its non-invasive nature, subjects take a lower risk compared to some …

Wounds at joints are difficult to treat and tend to recover more slowly due to the frequent
motions. When using traditional hydrogel dressings, they are easy to crack and undergo …