To date, development of high‐performance, stretchable gas sensors operating at and below
room temperature (RT) remains a challenge in terms of traditional sensing materials. Herein …

Here stretchable, self‐healable, and transparent gas sensors based on salt‐infiltrated
hydrogels for high‐performance NO2 sensing in both anaerobic environment and air at …

Conductive hydrogels have emerged as promising candidate materials for fabricating
wearable electronics because of their fascinating stimuli-responsive and mechanical …

Fabrication of stretchable chemical sensors becomes increasingly attractive for emerging
wearable applications in environmental monitoring and health care. Here, for the first time …

Highly stretchable, sensitive and room-temperature nitrogen dioxide (NO2) sensors are
fabricated by exploiting intrinsically stretchable, transparent and ion-conducting hydrogels …

Flexible gas sensors play an indispensable role in diverse applications spanning from
environmental monitoring to portable medical electronics. Full wearable gas monitoring …

Highly sensitive and wearable gas sensors are highly demanded on account of their
widespread application in health and environmental monitoring. However, the sensing …

With the advent of the 5G era and the rise of the Internet of Things, various sensors have
received unprecedented attention, especially wearable and stretchable sensors in the …

In this study, an innovative gas sensing mechanism, self-responsive sensing mechanism,
has been detected in the supramolecular hydrogel-based sensors. The self-responsive …

Cellulose has attracted much attention as an ecofriendly support layer for flexible gas
sensors. Here, an ultrasensitive, fully transparent, flexible gas sensor was developed using …