In nature, many biological organisms have developed the exceptional antifreezing ability to
survive in extremely cold environments. Inspired by the freeze resistance of these …

As human–machine interaction (HMI) is inseparable from our daily life, it drives people to
pursue a more convenient and intelligent way of life. Most of the traditional HMI devices are …

Achieving a good trade-off between high mechanical performance and long-term strain
sensing of hydrogel materials in cold environmental conditions remains a great challenge in …

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 …

Hydrogels as flexible sensor have attracted significant attention due to its conductivity,
stretchability and flexibility. However, it is still a great challenge to prepare hydrogels that …

Stretchable hydrogels as landmark soft materials have been efficiently utilized in the field of
wearable sensing devices. However, these soft hydrogels mostly cannot integrate …

Conductive hydrogels exhibit high potential in the fields of wearable sensors, healthcare
monitoring, and e‐skins. However, it remains a huge challenge to integrate high elasticity …

Ion conductive hydrogels (ICHs) have attracted great interest in the application of ionic skin
because of their superior characteristics. However, it remains a challenge for ICHs to …

Soft devices based on hydrogels are attracting increasing attention, but it is still a challenge
to prepare hydrogels with remarkable strength, strain sensing sensitivity, anti-freezing …

Hydrogels have emerged as powerful building blocks to develop various soft bioelectronics
because of their tissue‐like mechanical properties, superior bio‐compatibility, the ability to …