Multiple stretchable materials have been successively developed and applied to wearable
devices, soft robotics, and tissue engineering. Organohydrogels are currently being widely …

Hydrogels have been developed rapidly in recent years because of their great application
prospects in biomedicine and intelligent devices. The excellent performance of hydrogels is …

Flexible strain sensors and flexible supercapacitors have generated a lot of interest because
of their great potential to be used in flexible electronic equipment. Ionic hydrogels are ideal …

For practical applications in the fields of aerospace and robotic engineering, flexible energy
storage devices must be stable under environmental temperatures and different deformed …

Hydrogel electrolytes have shown great promise in the field of flexible energy storage.
However, the conventional hydrogel electrolytes have poor mechanical properties and are …

Due to the increased demand for wearable devices, there has been extensive research on
flexible energy storage devices (eg, batteries and supercapacitors) and bio-signal …

Natural biological tissues such as ligaments, due to their anisotropic across scale structure,
have high water content, while still maintaining high strength and flexibility. Hydrogels are …

With growing demands for portable electronics, flexible aqueous energy storage devices
such as supercapacitors and Zn‐based batteries have drawn tremendous interest from both …

High-performance hydrogel electrolyte is a candidate material for flexible all-solid-state
supercapacitor. However, there are some challenges limiting the application of hydrogel …

Hydrogel‐based flexible artificial tactility is equipped to intelligent robots to mimic human
mechanosensory perception. However, it remains a great challenge for hydrogel sensors to …