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 …

Nature has created high-performance materials and structures over millions of years of
evolution. Inspired by the concepts and design principles evident in natural materials and …

Self‐healing materials behave with irreplaceable advantages in biomimetic intelligent robots
(BIR) for avoiding or reducing safety hazards and economic losses from accidental damage …

Ionogels are promising materials for flexible electronics due to their continuous conductive
phase, high thermal and chemical stability. However, a large amount of ionic liquid is …

Stretchable ionic conductors are considerable to be the most attractive candidate for next-
generation flexible ionotronic devices. Nevertheless, high ionic conductivity, excellent …

Advanced sensation and actuation abilities of various living organisms in nature have
inspired researchers to design bioinspired self‐sensing soft actuators. However, the majority …

Conductive gels have received extensive attention in flexible electronics due to their diverse
characteristics. The requirement for versatility and incompatibility of the conductive fillers …

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

Abstract Self-healing, self-adhesive, and stretchable bio-based conductive hydrogels exhibit
properties similar to those of biological tissues, making them an urgent requirement for …

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 …