Hydrogels play an important role in the field of biomedical research and diagnostic
medicine. They are emerging as a powerful tool in the context of bioanalytical assays and …

Nature-derived or biologically encouraged hydrogels have attracted considerable interest in
numerous biomedical applications owing to their multidimensional utility and effectiveness …

For the new generation of wearable flexible electronic devices, it is urgent to achieve higher
requirements for the realization of anti-freezing properties. Herein, a strategy was …

Conductive hydrogels are of great significance for soft electronic devices. However, the
intrinsically weak nature, lack of fatigue resistance and self-healing capability, and the …

As an important part of artificial intelligence, electronic skin has received more and more
attention recently. However, two serious issues, slow self-healing and lack of direction …

Self-healing conductive hydrogels as artificial skin-like materials hold great potential
applications in the fields of artificial intelligence, soft robotics and personal healthcare …

The study of nanocomposite hydrogels in their various scientific areas has grown
remarkably along the years with emergence of various theoretical and experimental …

Flexible pressure and strain sensors have great potential for applications in wearable and
implantable devices, soft robots, and artificial skin. The introduction of self‐healing …

The increasing interest in wearable smart healthcare systems has sparked considerable
attention toward flexible sensors owing to their high sensitivity and flexibility. However, these …

Conductive hydrogels are flexible artificial materials that are promising for a broad range of
applications such as wearable sensors for healthcare and exercise monitoring, electronic …