Phase-Directed Assembly of Triboelectric Nanopaper for Self-Powered Noncontact Sensing.
Jinlong WangSiqiyuan ZhuJiangtao LiYanhua LiuBin LuoTao LiuMingchao ChiSong ZhangChenchen CaiXiuzhen LiCong GaoTong ZhaoBiying HeShuangfei WangShuangxi NiePublished in: Nano letters (2024)
Noncontact sensing technology serves as a pivotal medium for seamless data acquisition and intelligent perception in the era of the Internet of Things (IoT), bringing innovative interactive experiences to wearable human-machine interaction perception networks. However, the pervasive limitations of current noncontact sensing devices posed by harsh environmental conditions hinder the precision and stability of signals. In this study, the triboelectric nanopaper prepared by a phase-directed assembly strategy is presented, which possesses low charge transfer mobility (1618 cm 2 V -1 s -1 ) and exceptional high-temperature stability. Wearable self-powered noncontact sensors constructed from triboelectric nanopaper operate stably under high temperatures (200 °C). Furthermore, a temperature warning system for workers in hazardous environments is demonstrated, capable of nonintrusively identifying harmful thermal stimuli and detecting motion status. This research not only establishes a technological foundation for accurate and stable noncontact sensing under high temperatures but also promotes the sustainable intelligent development of wearable IoT devices under extreme environments.