Hydrogel-based conductive materials for smart wearable devices have attracted increasing
attention due to their excellent flexibility, versatility, and outstanding biocompatibility. This …

Soft robotics is an emerging technology requiring conductive materials with inherently high
compliance to sense, control or actuate. Poly (3, 4-ethylenedioxythiophene): polystyrene …

Flexible electronics is an emerging field of research involving multiple disciplines, which
include but not limited to physics, chemistry, materials science, electronic engineering, and …

Traditional electronic skin (e‐skin), due to the lack of human‐brain‐like thinking and judging
capability, is powerless to accelerate the pace to the intelligent era. Herein, artificial …

Despite the extensive developments of flexible capacitive pressure sensors, it is still elusive
to simultaneously achieve excellent linearity over a broad pressure range, high sensitivity …

Conducting polymer hydrogels are widely used as strain sensors in light of their distinct skin‐
like softness, strain sensitivity, and environmental adaptiveness in the fields of wearable …

Iontronic pressure sensors are promising in robot haptics because they can achieve high
sensing performance using nanoscale electric double layers (EDLs) for capacitive signal …

Flexible epidermic sensors made from conductive hydrogels are holding bright potential in
personalized healthcare, multifunctional electronic skins, and human‐machine interfaces …

Humans use periodically ridged fingertips to precisely perceive the characteristics of objects
via ion‐based fast‐and slow‐adaptive mechanotransduction. However, designing artificial …

Gait and waist motions always contain massive personnel information and it is feasible to
extract these data via wearable electronics for identification and healthcare based on the …