Biohydrogel–based flexible sensors have attracted enormous and growing attention for
personalized mobile equipment, human–machine interface units, wearable medical …

Textile based sensors, an emerging class of wearable devices, are a potential platform for
next generation, functionality and amenability for the human body incorporating sensing and …

The primary technology of next‐generation wearable electronics pursues the development
of highly deformable and stable systems. Here, nonvolatile, highly transparent, and …

Stretchability and sensitivity are essential properties of wearable electronics for effective
motion monitoring. In general, increasing the sensitivity of strain sensors based on ionic …

Biocomposite hydrogels are promising for applications in wearable flexible strain sensors.
Nevertheless, the existing biocomposite hydrogels are still hard to meet all requirements …

Designers and makers are increasingly interested in leveraging bio-based and bio-
degradable 'do-it-yourself'(DIY) materials for sustainable prototyping. Their self-produced …

Recently, increasing attention has been given to bacterial cellulose-based membranes to be
applied as dressings for healing purposes. Bacterial cellulose (BC) is an attractive …

Stretchable and wearable electronics, as a well-researched engineering frontier, can be
applied in human motion detection, thermal therapy, personal healthcare monitoring and …

Flexible strain sensors have attracted much attention due to their wide applications in
human health monitoring, motion detection, human–computer interaction, and smart robots …

There is a huge and growing demand for flexible electronics for electronic skin, wearable
devices and medical equipment. At the same time, celluloses with the special crystal shape …