Strain sensors are used in varied applications, including personal healthcare monitoring,
human–machine interaction, and artificial skin. Here, we report fabrication of a highly …

Hydrogels are promising materials for flexible wearable sensors, but they often suffer from
unpredictable mechanical damage. In this work, self-healing polyampholyte hydrogels are …

Hydrogels that are both transparent and conductive are promising materials for flexible
electronics. The increase in individual conducting units always lowers their transparency …

Mimicking human skin's functions to develop electronic skins has inspired tremendous
efforts in design and synthesis of novel soft materials with simplified fabrication methods …

A biocompatible, flexible, yet robust conductive composite hydrogel (CCH) for wearable
pressure/strain sensors has been achieved by an all-solution-based approach. The CCH is …

Biocompatible conductive hydrogels with intrinsic flexibility, high sensitivity, linearity and
outstanding reliability are highly demanded for wearable devices or implantable sensors …

Although conductive and elastic materials are increasingly required for strain or stress
sensing application in wearable electronic devices, it remains a great challenge to achieve …

Flexible pressure and strain sensors have great potential for applications in wearable and
implantable devices, soft robotics and artificial skin. Compared to flexible sensors based on …

Despite tremendous attention to hydrogel-based wearable strain sensors, it is still
challenging to develop an all-in-one hydrogel possessing desired properties of ultra …

Flexible and conductive hydrogel sensors have great potential for applications in wearable
and implantable devices, electronic skin and healthcare diagnosis. However, it remains a …