A Flexible Sensor with Excellent Environmental Stability Using Well-Designed Encapsulation Structure

Abstract: The hydrogel-based sensors suffer from poor stability and low sensitivity, severely limiting their further development. It is still “a black box” to understand the effect of the encapsulation as well as the electrode on the performance of the hydrogel-based sensors. To address these problems, we prepared an adhesive hydrogel that could robustly adhere to Ecoflex (adhesive strength is 4.7 kPa) as an encapsulation layer and proposed a rational encapsulation model that fully encapsulated the hydrogel within Ecofl… Show more

“…Smart wearable electronics with good biocompatibility have promising application prospects in healthcare, sports motion detection, and energy harvesting. − A large number of flexible wearable devices have been fabricated by adding different conductive fillers to substrate materials, including inorganic nonmetallic materials, , metallic nanoparticles, and conductive polymers …”

Investigation on the Dynamic Rheological Behavior of the Highly Elastic Organohydrogel

“…Smart wearable electronics with good biocompatibility have promising application prospects in healthcare, sports motion detection, and energy harvesting. − A large number of flexible wearable devices have been fabricated by adding different conductive fillers to substrate materials, including inorganic nonmetallic materials, , metallic nanoparticles, and conductive polymers …”

Investigation on the Dynamic Rheological Behavior of the Highly Elastic Organohydrogel

One-pot preparation of strong, tough, frost-resistant and recyclable organohydrogels via Hofmeister effect and its application for electronic devices

Preparation of strong, tough and conductive soy protein isolate/poly(vinyl alcohol)-based hydrogel via the synergy of biomineralization and salting out