The advancement of the Internet of Things/5G infrastructure requires a low‐cost ubiquitous
sensory network to realize an autonomous system for information collection and processing …

Ionic liquid (IL)-based gels (ionogels) have received considerable attention due to their
unique advantages in ionic conductivity and their biphasic liquid–solid phase property. In …

Conductive hydrogels can be prepared by incorporating various conductive materials into
polymeric network hydrogels. In recent years, conductive hydrogels have been developed …

Along with the arrival of the 5G era, sustainable and renewable energy supplies have
become urgent demands towards plentifully distributed devices utilized for constructing …

Over the past two decades, the unique features of ionic liquids (ILs) drive their exploration
and exploitation in gel field and endow the gels with many excellent properties including …

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 …

Conductive hydrogels have attracted tremendous attention for the next-generation
electronic/energy/robotic application owing to their excellent mechanical and electrical …

Conductive hydrogels (CHs) have been highlighted in the design of flexible strain sensors
and stretchable triboelectric nanogenerators (TENGs) on the basis of their excellent …

As one of the most outstanding materials, the analysis of the structure and function of
hydrogels has been extensively carried out to tailor and adapt them to various fields of …

Flexible conductive hydrogels with self-healing ability have attracted great attention in the
fields of wearable devices and healthcare monitoring due to their recoverability and …