Elastomeric polymers for conductive layers of flexible sensors: Materials, fabrication, performance, and applications

Abstract: In the wave of the Internet era created by computer and communication technology, flexible sensors play an important role in accurately collecting information owing to their excellent flexibility, ductility, freeform bending or folding, and versatile structural shapes. By endowing elastomeric polymers with conductivity, researchers have recently devoted extensive efforts toward developing high‐performance flexible sensors based on elastomeric conductive layers and exploring their potential applications in dive… Show more

“…† It is worth noting that in this work, the 2D structure of the solar evaporator is used to compare with other photothermal materials. [39][40][41][42][43][44][45][46] The solar evaporator containing molecule 3 has excellent water evaporation rate and efficiency, and outstanding This journal is © The Royal Society of Chemistry 2024 comprehensive performance, which is close to the theoretical upper limit (1.47 kg m −2 h −1 ). 47…”

A salt-resistant solar evaporator with organic diradicaloids as photothermal materials for efficient and persistent desalination

“…† It is worth noting that in this work, the 2D structure of the solar evaporator is used to compare with other photothermal materials. [39][40][41][42][43][44][45][46] The solar evaporator containing molecule 3 has excellent water evaporation rate and efficiency, and outstanding This journal is © The Royal Society of Chemistry 2024 comprehensive performance, which is close to the theoretical upper limit (1.47 kg m −2 h −1 ). 47…”

A salt-resistant solar evaporator with organic diradicaloids as photothermal materials for efficient and persistent desalination

“…38 Recent advances in stretchable electronics have opened up new frontiers for diverse applications such as stretchable lightemitting diodes, 39 soft batteries, 40 stretchable sensors, 41 and supercapacitors, 42 which play important roles in establishing versatile connections between humans and machines by enabling the evolution of wearable and implantable electronic devices. 11,[43][44][45] However, the mechanical properties and stretchability of CNT-based thermoelectric composites face inherent limitations arising from intrinsic brittleness of CNTs, making them susceptible to deformation under tensile strain and mechanical stress. Consequently, contemporary research initiatives have been progressively focused on refining the incorporation of additional stretchable materials and the design of the device configuration of CNT-based thermoelectric devices, with the aim of increasing their overall stretchability.…”

High-performance ladder-type conjugated polymer/carbon nanotube nanocomposites blended with elastomers for stretchable thermoelectric thin films

“…Researchers implemented nanodopants with covalent modification to improve the dispersion of nanodopants and fabricated uniform poly­(vinylidene fluoride)/graphene, silicon carbide/carbon, and polyacrylonitrile/MXene nanofibrous membranes via one-step blend electrospinning. On the other hand, researchers used nanofibrous membranes as substrates and prepared a conductive layer with nanodopants via different surface modifications, including chemical vapor deposition, electrospraying, and in situ deposition. − These conductive nanofibrous materials demonstrated good flexibility, remarkable electrical heating performance, and satisfactory temperature controllability, but these electrical heating textiles showed two flaws, which were involved in heat reflection and water repellence. The first flaw is that these electric-heating fabrics dissipate a significant amount of heat into the environment, while providing warmth to the human body.…”

Superhydrophobic, Highly Conductive, and Trilayered Fabric with Connected Carbon Nanotubes for Energy-Efficient Electrical Heating