Ultrasensitive and Highly Stretchable Multiple-Crosslinked Ionic Hydrogel Sensors with Long-Term Stability

Abstract: Flexible hydrogels are receiving significant attention for their application in wearable sensors. However, most hydrogel materials exhibit weak and one-time adhesion, low sensitivity, ice crystallization, water evaporation, and poor self-recovery, thereby limiting their application as sensors. These issues are only partly addressed in previous studies. Herein, a multiple-crosslinked poly(2-(methacryloyloxy)ethyl)dimethyl-(3-sulfopropyl)ammonium hydroxide-co-acrylamide) (P(SBMA-co-AAm)) multifunctional hydrogel… Show more

“…These polymer structures contribute to the self-adhesive ability of the zwitterionic hydrogels owing to the dipole-dipole moment between the hydrogels and the substrates, which is an important requirement for wearable strain sensors. 38,78…”

Nanocomposite hydrogels for strain sensing based on optical and electrical signals: a review

“…These polymer structures contribute to the self-adhesive ability of the zwitterionic hydrogels owing to the dipole-dipole moment between the hydrogels and the substrates, which is an important requirement for wearable strain sensors. 38,78…”

Nanocomposite hydrogels for strain sensing based on optical and electrical signals: a review

“…Not only swelling but also excessive water loss can lead to great changes in the properties of hydrogels. Therefore, it is very important to study hydrogels with water retention 141,142 . Although many hydrogels have achieved excellent results in various properties, there is still great demand and difficulty in developing multifunctional and integrated hydrogels 115 …”

Functional adhesive hydrogels for biological interfaces

“…Besides, when serving as e-skin to emulate human skin for monitoring human behaviors, multifunction sensing is essential for conductive hydrogels, as these flexible devices may encounter various stimuli such as strain, temperature, and so on. − Numerous studies have proposed solutions for designing multifunctional flexible sensors. − For example, Wang et al designed a capacitance based on conductive hydrogel, which can monitor mechanical variation and thermal change via output signals of capacitance and resistance . Xu et al prepared a zwitterionic ionic conductive hydrogel, which is sensitive to the change in temperature and strain .…”

Multifunction E-Skin Based on MXene–PA–Hydrogel for Human Behavior Monitoring