State Key Laboratory of Optoelectronic Materials and Technologies, School of Electronics and Information Technology, Sun Yat-sen University, Guangzhou 510275, China.
School of Electronics and Information Engineering, Guangzhou City University of Technology, Guangzhou 510800, China.
ACS Appl Mater Interfaces. 2023 Feb 15;15(6):8345-8354. doi: 10.1021/acsami.2c22158. Epub 2023 Feb 1.
The fast-growing motion capturing/monitoring technique has raised a great demand for flexible strain sensors. For capturing complex motions (e.g., facial motion), both the strain amplitude and direction should be accurately detected. Although some reported sensors based on anisotropic conductive networks are proved to show accurate localization of strain directions, it is still a great challenge to achieve both high sensitivity and a high sensing range in these designs. Here, a self-assembled TiCT MXene film with parallel and periodic wrinkles is fabricated on a stretchable poly(dimethylsiloxane) substrate for constructing multi-directional strain sensors. During stretching, relative slip and crack will occur between the stacked MXene nanosheets, which contribute to high structural sensitivity in the MXene film. Meanwhile, the wrinkled structure contributes to high stretchability. As a result, the sensor based on the film with one-dimensional periodic wrinkles shows a large sensing range (>50%) and a gauge factor of 45. Furthermore, the sensor can accurately detect both the strain amplitude and direction by using the MXene film with two-dimensional wrinkles. It shows distinguishable electrical responses when detecting different-amplitude human/robot motions such as joint bending and walking. Additionally, the directions in complex human motions (e.g., facial motion) can also be well-tracked. This work provides an effective strategy to detect multi-directional motions.
快速发展的运动捕捉/监测技术对灵活应变传感器提出了巨大需求。为了捕捉复杂运动(例如面部运动),应准确检测应变幅度和方向。虽然一些基于各向异性导电网络的报道传感器被证明可以准确检测应变方向的定位,但在这些设计中实现高灵敏度和高感测范围仍然是一个巨大的挑战。在这里,在可拉伸聚二甲基硅氧烷基底上制备了具有平行和周期性褶皱的自组装 TiCT MXene 薄膜,用于构建多向应变传感器。在拉伸过程中,堆叠的 MXene 纳米片之间会发生相对滑动和裂纹,这有助于提高 MXene 薄膜的结构灵敏度。同时,褶皱结构有助于提高拉伸性。结果,基于具有一维周期性褶皱的薄膜的传感器具有较大的感测范围(>50%)和 45 的应变系数。此外,通过使用具有二维褶皱的 MXene 薄膜,传感器可以准确地检测应变幅度和方向。在检测不同幅度的人体/机器人运动(例如关节弯曲和行走)时,它会显示出可区分的电响应。此外,还可以很好地跟踪复杂人体运动(例如面部运动)的方向。这项工作提供了一种有效的策略来检测多向运动。
