Multifunctional hydrophobic fabric-based strain sensor for human motion detection and personal thermal management

“…), various structures of sensing materials have been designed, including crack, core–shell, pyramid arrays, porous microstructure, overlapping, and hierarchical structures. − The strain sensors based on cotton/CNT sheath–core yarn have been reported, showing an ultrahigh strain sensing range (0–350%) and excellent stability . Furthermore, multifunctional high-performance strain sensors have also been widely studied. − For example, Zhu et al designed multifunctional hydrophobic and conductive fabric-based strain sensors with potential applications in human motion detection and thermal management . Another work fabricated a multifunctional e-textile based on polypyrrole and rose-like silver flower-decorated knitted cotton/spandex fabric with excellent sensing and energy storage behaviors .…”

“…33−36 For example, Zhu et al designed multifunctional hydrophobic and conductive fabric-based strain sensors with potential applications in human motion detection and thermal management. 35 Another work fabricated a multifunctional e-textile based on polypyrrole and rose-like silver flower-decorated knitted cotton/spandex fabric with excellent sensing and energy storage behaviors. 36 However, these strain sensors are mainly applied to detect single-axis strain and cannot independently respond to strains in different directions.…”

Highly Aligned Cellulose/Polypyrrole Composite Nanofibers via Electrospinning and In Situ Polymerization for Anisotropic Flexible Strain Sensor

“…), various structures of sensing materials have been designed, including crack, core–shell, pyramid arrays, porous microstructure, overlapping, and hierarchical structures. − The strain sensors based on cotton/CNT sheath–core yarn have been reported, showing an ultrahigh strain sensing range (0–350%) and excellent stability . Furthermore, multifunctional high-performance strain sensors have also been widely studied. − For example, Zhu et al designed multifunctional hydrophobic and conductive fabric-based strain sensors with potential applications in human motion detection and thermal management . Another work fabricated a multifunctional e-textile based on polypyrrole and rose-like silver flower-decorated knitted cotton/spandex fabric with excellent sensing and energy storage behaviors .…”

“…33−36 For example, Zhu et al designed multifunctional hydrophobic and conductive fabric-based strain sensors with potential applications in human motion detection and thermal management. 35 Another work fabricated a multifunctional e-textile based on polypyrrole and rose-like silver flower-decorated knitted cotton/spandex fabric with excellent sensing and energy storage behaviors. 36 However, these strain sensors are mainly applied to detect single-axis strain and cannot independently respond to strains in different directions.…”

Highly Aligned Cellulose/Polypyrrole Composite Nanofibers via Electrospinning and In Situ Polymerization for Anisotropic Flexible Strain Sensor

“…[93] Conductive materials are particularly essential to the sensitivity of the sensor in the creation of flexible electronic devices; the present research of hot nanoconductive materials include metal nanoparticles, [94] carbon nanotubes, [95] graphene, [95] and inherently conductive polymers ((polypyrrole (PPy), [96] polyaniline (PANI) [97] ). Li et al [98] sprayed polyaniline (PANI) and MXene alternately onto cotton fabrics to obtain polyaniline/MXene/cotton fabrics (PMCFs), and the PMCFs exhibited good electromagnetic shielding properties (Figure6a,b). This functional fabric has potential applications in special fields such as wearable apparel and smart electromagnetic wave shielding.…”

MXene‐Based Flexible Sensors: Materials, Preparation, and Applications

“…In recent years, flexible pressure sensors have become a hot topic due to their advantages of flexibility, low cost, simple preparation, and high sensitivity, 1,2 and have been widely used in wearable electronics, 3–5 physiological signal detection, 6,7 environmental signal detection 8 and other fields. According to their sensing mechanisms, flexible pressure sensors can be mainly divided into piezoresistance, 9 capacitance, 10 piezoelectric, 11 and triboelectric sensors.…”

BaTiO₃/MXene/PVDF-TrFE composite films via an electrospinning method for flexible piezoelectric pressure sensors