Jiabing Zhang, Hongfei Xie, Yuming Hu, Wei Sun, Mengfei Lv, Teng Han, Xiaolin Tian, Shuang Wang, Meng Su
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引用次数: 0
摘要
随着人们对健康问题的日益重视,各种用于运动相关活动监测的可穿戴电子设备应运而生。然而,据报道,这些传感器必须紧贴身体,才能记录运动过程中的光子、电子甚至化学变化。糟糕的用户体验阻碍了可穿戴传感器的快速应用。在此,我们开发了一种用于实现非接触式运动监测的全印刷包晶光电探测器。一维 MAPbBr3 阵列是通过液滴操纵打印策略打印出来的,具有均匀的取向和严格的结晶。在模板上微阵列的引导下,装载了过氧化物的液滴可自行形成线性封闭液体空间,以便进行下一步结晶。利用具有高响应率(R,最大值:198 A W-1)和检测率(D*,最大值:6.64 × 1013 Jones)的一维包晶光电探测器,可以检测俯卧撑运动过程中身体下方环境光强的变化,实现对运动的非接触式实时监测。印刷光电探测器对采集到的俯卧撑信号进行分类的平均准确率达到 97.40%。这一策略为进一步提高可穿戴传感器的传感性能提供了参考,也拓展了运动监测的应用范围。
Printed 1d Perovskite Photodetector for Indoor/Outdoor Non-Contact and Real-Time Sports Training Monitoring
As people increased emphasis on health problems, various wearable electronic devices are developed for sport-related activity monitoring. However, these reported sensors must be tightly attached on the body to record the photonic, electronic even chemical changes during exercise. Poor user experience hinders the rapid application of wearable sensors. Here, an all-printed perovskite photodetector for achieving non-contact sports motion monitoring is developed. 1D MAPbBr3 arrays are printed with uniform orientation and strict crystallization via the droplet-manipulation printing strategy. Under the guidance of microarrays on the template, the perovskite-loaded droplet can be self-shaped into the linear confined liquid space for the next crystallization. 1D perovskite photodetectors with high responsivity (R, MAX: 198 A W−1) and detectivity (D*, MAX: 6.64 × 1013 Jones) can be utilized to detect changes in the ambient light intensity under the body during the push-up movement, achieving non-contact real-time monitoring of motions. The average accuracy of printed photodetectors to classify the collected push-up signals reaches 97.40%. This strategy provides a reference for further improving the sensing performance of wearable sensors, which also extends the application of sports monitoring.