Highly sensitive and multimodal sensors have recently emerged for a wide range of
applications, including epidermal electronics, robotics, health‐monitoring devices and …

Appropriate surface wettability of membranes and materials are of an extreme importance
for targeting separation of mixtures/emulsions such as oil from water or conversely water …

Conductive hydrogels have attracted tremendous interest in the construction of flexible strain
sensors and triboelectric nanogenerators (TENGs) owing to their good stretchability and …

Flexible sensing devices (FSDs) fabricated using conductive hydrogels have attracted
researchers' extensive enthusiasm in recent years due to their versatility. Considering the …

Due to their mechanical flexibility, conductive hydrogels have been widely investigated in
the fields of flexible electronics and soft robots, but their non-negligible disadvantages, such …

Conductive hydrogel has attracted immersive attentions as the most promising candidate for
the fabrication of next-generation wearable and soft electronics due to its diverse …

Flexible sensors have great potential for human motion sensing, medical monitoring,
electronic skin and display devices. Flexible hydrogel sensors with transparent …

Common hydrogels containing abundant water are insulating materials and lose
stretchability easily below the freezing point of water, holding limited potential in emerging …

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 …

Cellulose nanofibers are one of the most frequently used fillers for reinforcing hydrogels.
The reinforcement, however, is commonly accompanied by the decrease of deformability …