Tough, adhesive, self-healing, fully physical crosslinked κ-CG-K+/pHEAA double-network ionic conductive hydrogels for wearable sensors

“…4f). 49–54 The above results further confirmed the high strain sensitivity of the TAPU/Fe-4 hydrogel sensor. Besides, the fatigue resistance of the TAPU/Fe-4 hydrogel sensor was also estimated.…”

Multifunctional polyurethane hydrogel based on a phenol–carbamate network and an Fe³⁺–polyphenol coordination bond toward NIR light triggered actuators and strain sensors

“…4f). 49–54 The above results further confirmed the high strain sensitivity of the TAPU/Fe-4 hydrogel sensor. Besides, the fatigue resistance of the TAPU/Fe-4 hydrogel sensor was also estimated.…”

Multifunctional polyurethane hydrogel based on a phenol–carbamate network and an Fe³⁺–polyphenol coordination bond toward NIR light triggered actuators and strain sensors

“…Ionic interactions were also able to take part in the self-healing polymers based on reversible crosslinked networks [ 65 , 66 ]. Comparable with hydrogen bonds because of their saturability and direction abilities leading to the loss of self-healing abilities under room temperature, ionic bonds are a strong electrostatic interaction between the opposite charges’ atoms or groups [ 67 ].…”

Self-Healing Materials-Based Electronic Skin: Mechanism, Development and Applications

“…5e and f). [44][45][46][47][48][49] The excellent sensitivity may be related to the ionized water channels separated by EG molecules. To explain the above statement, electrochemical impedance spectra of the C 3 AE 3 P hydrogel were recorded.…”

Assembled caseins as crosslinkers for tough, adhesive and self-healing hydrogels towards flexible sensors