In addition to conductivity,
recent evidence suggests that adhesive,
self-healing, and antibacterial properties are also important aspects
of wearable force sensors. However, preparation of hydrogel with these
combined aspects in a facile strategy is still a challenge. In this
paper, a simple method is proposed to obtain adhesive, conductive,
self-healing, and antibacterial chitosan–polyoxometalate (POM)
hydrogel. First, silicotungstic acid (SiW) was added into a chitosan
solution to form a chitosan–silicotungstic acid (CS/SiW) physical
cross-link network. Second, the CS/SiW–poly(acrylamide) (PAM)
double-network hydrogels were fabricated by the in situ polymerization of acrylamide (AM). The CS/SiW-PAM hydrogel indicated
excellent repeatable adhesive capacity on the surface of various materials.
The CS/SiW-PAM hydrogel also displayed highly sensitive conductivity
upon strain. Moreover, the CS/SiW-PAM hydrogel had outstanding self-healing
and antibacterial properties. As a result, it is envisioned that the
present work will broaden the path for development of POM-based functional
soft materials for various applications.