Abstract Electronic skins (e‐skins), which are mechanically compliant with human skin, are
regarded as ideal electronic devices for noninvasive human–machine interaction and …

Abstract Three-dimensional printing (3DP) technology has emerged as a rapidly growing
and revolutionary manufacturing method. Among the various 3DP techniques, photocuring …

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

As flexible sensors are soft and prone to damage in practical applications, stretchable
conductors with self-healing capacity can extend their service life. However, existing vat …

Aerogel sensors have drawn considerable interest in the recent research world. However,
simultaneously maintaining superelasticity and an outstanding piezoresistive effect under …

Polymer ionogel (PIG) is a new type of flexible, stretchable, and ion‐conductive material,
which generally consists of two components (polymer matrix materials and ionic …

Due to good stretchability, conductive gels have significant advantages in the field of
manufacturing wearable flexible electronic devices. However, hydrogel-based and ionogel …

Conductive gels are promising soft ionic conductors for stretchable and flexible electronics.
However, the integration of multiple functions into one gel remains a great challenge, as the …

Conductive elastomers with both softness and conductivity are widely used in the field of
flexible electronics. Nonetheless, conductive elastomers typically exhibit prominent …

Ionogels with both high strength and high conductivity for wearable strain and pressure dual-
mode sensors are needed for human motion and health monitoring. Here, multiple hydrogen …