The key Laboratory of Space Applied Physics and Chemistry, Ministry of Education and Shaanxi Key Laboratory of Macromolecular Science and Technology, School of Chemistry and chemical Engineering, Northwestern Polytechnical University, Xi'an, 710072, P. R. China.
ACS Appl Mater Interfaces. 2021 Sep 29;13(38):46022-46032. doi: 10.1021/acsami.1c15052. Epub 2021 Sep 20.
Conductive hydrogels are promising multifunctional materials for wearable sensors, but their practical applications require combined properties that are difficult to achieve. Herein, we developed a flexible wearable sensor with double-layer structure based on conductive composite hydrogel, which included the outer layer of silicone elastomer (Ecoflex)/silica microparticle composite film and the inner layer of P(AAm--HEMA)-MXene-AgNPs hydrogel. Through covalently cross-linking silicone elastomer on the surface of the hydrogel polymer, we bonded a thin Ecoflex film (100 μm) on the P(AAm--HEMA)-MXene-AgNPs hydrogel with robust interface, which can easily adhere to the Ecoflex/SiO microparticle composite film by silicone glue. The Ecoflex/SiO microparticle composite film endows the strain wearable sensor with superhydrophobic function that could maintain the stability under stretching or bending. Moreover, it can effectively resist the interference of water droplets and water flow. The P(AAm--HEMA)-MXene-AgNPs hydrogel exhibits outstanding antibacterial activity to inhibit , , and even drug-resistant . In addition, the flexible wearable sensor exhibited good self-adhesive performance by changing the reaction temperature of hydrogel and can adhere strongly onto various materials. The conductive composite hydrogel reported in this work contributes an innovative strategy for the preparation of multifunctional flexible wearable sensor.
导电水凝胶是一种很有前途的多功能材料,可用于可穿戴传感器,但它们的实际应用需要结合难以实现的综合性能。在此,我们开发了一种基于导电复合水凝胶的双层结构的柔性可穿戴传感器,其包括硅酮弹性体(Ecoflex)/二氧化硅微颗粒复合膜的外层和 P(AAm--HEMA)-MXene-AgNPs 水凝胶的内层。通过在水凝胶聚合物表面进行硅酮弹性体的共价交联,我们将一层薄的 Ecoflex 薄膜(100μm)牢固地键合在 P(AAm--HEMA)-MXene-AgNPs 水凝胶上,这种结合方式可以通过硅酮胶轻易地与 Ecoflex/SiO 微颗粒复合膜黏合。Ecoflex/SiO 微颗粒复合膜赋予了应变可穿戴传感器超疏水功能,使其在拉伸或弯曲时保持稳定性。此外,它还可以有效地抵抗水滴和水流的干扰。P(AAm--HEMA)-MXene-AgNPs 水凝胶对 、 、甚至耐药菌 表现出出色的抗菌活性。此外,通过改变水凝胶的反应温度,柔性可穿戴传感器表现出良好的自粘性,可以牢固地黏附在各种材料上。本工作中报道的这种导电复合水凝胶为多功能柔性可穿戴传感器的制备提供了一种创新策略。
