Thermally Drawn Elastomer Nanocomposites for Soft Mechanical Sensors

Abstract: Stretchable and conductive nanocomposites are emerging as important constituents of soft mechanical sensors for health monitoring, human–machine interactions, and soft robotics. However, tuning the materials’ properties and sensor structures to the targeted mode and range of mechanical stimulation is limited by current fabrication approaches, particularly in scalable polymer melt techniques. Here, thermoplastic elastomer‐based nanocomposites are engineered and novel rheological requirements are proposed for th… Show more

“…Complex shear viscosity, storage modulus, and loss modulus are the important criteria during the multi‐material thermal draw. [ 60 ] Complex shear viscosity ( η ☆ ) is a rheological attribute of a material that describes the relation of stress to strain rate in viscoelastic fluid in the case of oscillatory shear stress. [ 61 ] A material's elastic behavior is presented by storage modulus ( G' ), described as the ability of a material to store and recover energy during deformation.…”

Graphene Nanoplatelet Integrated Thermally Drawn PVDF Triboelectric Nanocomposite Fibers for Extreme Environmental Conditions

“…Complex shear viscosity, storage modulus, and loss modulus are the important criteria during the multi‐material thermal draw. [ 60 ] Complex shear viscosity ( η ☆ ) is a rheological attribute of a material that describes the relation of stress to strain rate in viscoelastic fluid in the case of oscillatory shear stress. [ 61 ] A material's elastic behavior is presented by storage modulus ( G' ), described as the ability of a material to store and recover energy during deformation.…”

Graphene Nanoplatelet Integrated Thermally Drawn PVDF Triboelectric Nanocomposite Fibers for Extreme Environmental Conditions

“…Transparent electrodes have been widely used in various application fields, such as liquid crystal displays, touch screens, smart windows, solar cells, organic light-emitting diodes, alternating current electroluminescent devices, and supercapacitors. − In the meantime, flexible electronics have become an emerging potential technique, − and the issue of how to manufacture flexible transparent electrodes with both durability and high performance has attracted much attention from researchers and enterprises. Among various types of transparent electrodes, indium tin oxide (ITO) is the most widely used transparent electrode due to its high transmittance and good electrical conductivity .…”

Improved Stability of Copper Nanowires with Solution-Grown NiO Shells as Protective Coating

“…Rather than conventional rigid electronic devices, dielectric elastomers (DEs) will become the mainstay of future flexible electronic devices in terms of their distinctive feature of being able to change shape or size when an external electric field is applied. In particular, it occupies an eminent position in areas such as soft robotics, 1 sensors, 2 and artificial muscles. 3 Although Des enjoy the title of artificial muscle, one of the most lacking features of Des that distinguish them from human muscles is their inability to heal themselves, as human muscles can heal rapidly after injury, which in the case of Des is mainly a consequence of dielectric breakdown from large actuation voltages.…”

Polysulfide polyurethane–urea-based dielectric composites with CeO₂-loaded MXene exhibiting high self-healing efficiency