College of Biomass Science and Engineering, Sichuan University, Chengdu 610065, China.
J Mater Chem B. 2021 Jan 28;9(3):719-730. doi: 10.1039/d0tb01926g.
Conductive hydrogels have attracted widespread attention in wearable electronic devices and human motion detection. However, designing self-healing hydrogels with high conductivity and excellent mechanical properties remains a challenge. In this work, polyvinyl alcohol/carbon nanotubes/graphene (PVA/CNTs/graphene) with an island-bridge hydrogel structure and self-healing properties was designed by merging PVA/CNTs hydrogel and PVA/graphene hydrogel, in which the PVA/graphene hydrogel acts as an "island" and PVA/CNTs hydrogel acts as a "bridge" to bridge the entire conductive network. Hydrogen-bonding between the borate ion and the -OH group of PVA allows the conductive hydrogel to heal without any external stimulation. The PVA/CNTs/graphene hydrogel can be used for both stretchable strain and pressure sensors. The obtained PVA/CNTs/graphene composite hydrogel exhibits excellent electrical conductivity, extreme high elastic strain (up to 900%) and strong mechanical pressure (up to 10 kPa). The strain sensor based on the PVA/CNTs/graphene hydrogel exhibits excellent tensile strain sensitivity (a gauge factor of 152.6 in the strain region of 316-600%) and wide detection working range (1-600%) with high durability and repeatability. The sensor also remains highly sensitive when being used as a pressure sensor (-0.127 kPa-1 at 0-5 kPa). Additionally, the PVA/CNTs/graphene hydrogel-based sensor can detect human motions after multiple cuts and self-healing with excellent stability and repeatability. The PVA/CNTs/graphene hydrogel provides a new idea in the development of wearable electronics, demonstrating the potential of the next generation of wearable electronics.
具有导电机能的水凝胶在可穿戴电子装备和人体运动检测方面引起了普遍关注。然而,设计具有高导电性和优秀机械性能的自修复水凝胶仍然是一个挑战。在这项工作中,通过合并 PVA/CNTs 水凝胶和 PVA/石墨烯水凝胶,设计了具有岛桥水凝胶结构和自修复性能的 PVA/CNTs/石墨烯(PVA/CNTs/石墨烯),其中 PVA/石墨烯水凝胶作为“岛”,PVA/CNTs 水凝胶作为“桥”,以桥接整个导电网络。硼酸根离子和 PVA 中的-OH 基团之间的氢键使导电水凝胶在没有任何外部刺激的情况下能够自我修复。PVA/CNTs/石墨烯水凝胶可用作可拉伸应变和压力传感器。所获得的 PVA/CNTs/石墨烯复合水凝胶表现出优异的导电性、极高的弹性应变(高达 900%)和强大的机械压力(高达 10 kPa)。基于 PVA/CNTs/石墨烯水凝胶的应变传感器在拉伸应变区域(316-600%)表现出优异的拉伸应变灵敏度(应变系数为 152.6)和宽检测工作范围(1-600%),具有高耐久性和可重复性。当用作压力传感器时,传感器也保持高度灵敏(在 0-5 kPa 时为-0.127 kPa-1)。此外,基于 PVA/CNTs/石墨烯水凝胶的传感器可以在多次切割和自修复后检测人体运动,具有出色的稳定性和可重复性。PVA/CNTs/石墨烯水凝胶为可穿戴电子设备的发展提供了新思路,展示了下一代可穿戴电子设备的潜力。
