摩擦电效应
材料科学
无线
数码产品
纳米发生器
固定无线
可穿戴计算机
软件部署
传输(电信)
无线传感器网络
家庭自动化
Wi-Fi阵列
无线网络
嵌入式系统
可穿戴技术
电气工程
计算机网络
计算机科学
电信
电压
工程类
复合材料
操作系统
作者
Chaoqun Nie,Lin Cheng,Bo Li,Fangqi Chen,Hengyu Guo,J. G. Li,Liuyang Liang,Yingjie Wang,Yonghui Wu,Haiwu Zheng
标识
DOI:10.1002/adfm.202425965
摘要
Abstract Wireless communication systems based on discharge‐induced displacement current exhibit significant potential for enhancing the convenience, security, and low power consumption of wireless systems. However, their practical applications remain largely constrained by the complexity of signals in both the time and frequency domains. Here, a novel compact wireless passive system composed of a self‐powered wireless e‐sticker (SWES) and electronic circuits, enabling long‐distance wireless communication through a real‐time signal processing strategy, thereby applicable in smart homes is proposed. The SWES seamlessly integrates a triboelectric nanogenerator with an optimized plasma switch to ensure stable wireless signal transmission under mechanical stimulation, achieving a transmission distance as high as 13 m, while maintaining a lightweight of 0.24 g and a compact size of 3.5 × 2.5 × 0.0167 cm 3 . Furthermore, a multimodal smart home control system that integrates this wireless passive design with a dedicated control application, enabling monitoring of the appliance status and intelligent control, thereby validating the system's convenience, security, and versatility is demonstrated. The proposed system is poised for widespread deployment in smart homes, facilitating wireless intelligent control of various electronic appliances powered by municipal electricity and holding substantial potential for applications in smart cities, wearable electronics, and human–machine interfaces.
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