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Flexible Stretchable, Dry-Resistant MXene Nanocomposite Conductive Hydrogel for Human Motion Monitoring

Yafei Liu, Huixia Feng, Yujie Gui, Ting Chen, Haidong Xu, Xiaoxue Huang, Xuemei Ma

2023Polymers16 citationsDOIOpen Access PDF

Abstract

Conductive hydrogels with high electrical conductivity, ductility, and anti-dryness have promising applications in flexible wearable electronics. However, its potential applications in such a developing field are severely hampered by its extremely poor adaptability to cold or hot environmental conditions. In this research, an “organic solvent/water” composite conductive hydrogel is developed by introducing a binary organic solvent of EG/H2O into the system using a simple one-pot free radical polymerization method to create Ti3C2TX MXene nanosheet-reinforced polyvinyl alcohol/polyacrylamide covalently networked nanocomposite hydrogels (PAEM) with excellent flexibility and mechanical properties. The optimized PAEM contains 0.3 wt% MXene has excellent mechanical performance (tensile elongation of ~1033%) and an improved modulus of elasticity (0.14 MPa), a stable temperature tolerance from −50 to 40 °C, and a high gauge factor of 10.95 with a long storage period and response time of 110 ms. Additionally, it is worth noting that the elongation at break at −40 °C was maintained at around 50% of room temperature. This research will contribute to the development of flexible sensors for human-computer interaction, electronic skin, and human health monitoring.

Topics & Concepts

Materials scienceSelf-healing hydrogelsNanocompositeComposite materialFlexible electronicsDynamic mechanical analysisNanotechnologyPolymerPolymer chemistryAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsMXene and MAX Phase Materials