This paper provides a review of recent developments in the rapidly changing and advancing
field of textile-based flexible pressure sensors. It summarizes the basic principles and …

Flexible human body electronic sensor is a multifunctional electronic device with flexibility,
extensibility, and responsiveness. Piezoresistive flexible human body electronic sensor has …

Sensing materials with fiber structures are excellent candidates for the fabrication of flexible
pressure sensors due to their large specific surface area and abundant contact points. Here …

Ultralight and highly flexible aerogel sensors, composed of reduced graphene oxide cross‐
linked by sustainable‐macromolecule‐derived carbon, are prepared via facile freeze‐drying …

Metal-organic frameworks (MOFs) are a versatile source of carbon nanoarchitectures in gas
sensing applications (Torad et al., 2019). Herein, several types of nanoporous carbons …

Conductive nanomaterial/flexible polymer composite foams are of great interest in the field
of flexible and wearable piezoresistive pressure sensors. However, the existing composite …

Developing a printed elastomeric wearable sensor with good conformity and proper
adhesion to skin, coupled with the capability of monitoring various physiological parameters …

Compressible and ultralight all-carbon materials are promising candidates for piezoresistive
pressure sensors. Although several fabrication methods have been developed, the required …

To date, most skin-like pressure sensors largely depend on the conventional lithography
technique for fabricating microstructures, limited by chemical-intensive and time-consuming …

Traditional flapping-wing robots (FWRs) obtain lift and thrust by relying on the passive
deformation of their wings which cannot actively fold or deform. In contrast, flying creatures …