Facile and green lyocell/feather nonwovens with in-situ growth of ZIF-8 as adsorbent for physicochemical CO2 capture

“…As the nonporous and less permeable structure of polymeric lms [16][17][18] may easily cause skin irritation and discomfort in daily usage, fabrics featuring good exibility and breathability have emerged as promising microporous substrates for wearable piezoresistive sensors. [19][20][21][22] Once subjected to pressure, the structural deformation of fabrics would induce variations in the conductive pathway, which can be easily gathered via electric resistance measurement. Three-dimensional (3D) fabrics are extremely advantageous in this regard, because of their large deformation range and high compressional resilience.…”

An organic/inorganic coating strategy that greatly enhanced sensing performances and reliability of all-fabric piezoresistive sensors

“…As the nonporous and less permeable structure of polymeric lms [16][17][18] may easily cause skin irritation and discomfort in daily usage, fabrics featuring good exibility and breathability have emerged as promising microporous substrates for wearable piezoresistive sensors. [19][20][21][22] Once subjected to pressure, the structural deformation of fabrics would induce variations in the conductive pathway, which can be easily gathered via electric resistance measurement. Three-dimensional (3D) fabrics are extremely advantageous in this regard, because of their large deformation range and high compressional resilience.…”

An organic/inorganic coating strategy that greatly enhanced sensing performances and reliability of all-fabric piezoresistive sensors

Low-Cost, Scalable Fabrication of All-Fabric Piezoresistive Sensors via Binder-Free, In-Situ Welding of Carbon Nanotubes on Bicomponent Nonwovens

Future scope of synthetic fibers and their composites