Due to the good biocompatibility and easy regulation of hydrogels, hydrogel-based flexible
sensors have flourished in the fields of wearable electronics, electronic skin, and soft …

Natural gels and biomimetic hydrogel materials have been able to achieve outstanding
integrated mechanical properties due to the gain of natural biological structures. However …

The development of flexible conductive elastomers integrating renewable feedstock,
splendid mechanical property, and excellent weather resistance is of major interest and …

Ion conductors (ICs) have gained extensive research interest in various advanced
application scenarios including sensors, batteries, and supercapacitors. However …

Flexible electronics are playing an increasingly important role in human health monitoring
and healthcare diagnosis. Strong adhesion on human tissue would be ideal for reducing …

Neural electrodes, as a bridge for bidirectional communication between the body and
external devices, are crucial means for detecting and controlling nerve activity. The …

Eutectogels are emerging as an appealing soft conductor for self‐powered sensing and the
next generation of flexible human–computer interactive devices owing to their inherent …

Polymerizable deep eutectic solvent (PDES) as a newly emerging type of liquid‐free ionic
conductive elastomer is considered to be the most attractive candidate for the next …

Compared with traditional hydrogels and ionic liquid gels, ionic conducting eutectogels have
the advantages of temperature resistance, low cost, and biocompatibility, showing great …

Liquid-free ionic conductive elastomers (ICEs) are ideal materials for wearable strain
sensors in increasingly flexible electronic devices. However, developing recyclable ICEs …