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Directional Moisture-Wicking Triboelectric Materials Enabled by Laplace Pressure Differences.

Zhiwei WangXuelian ZouTao LiuYunpeng ZhuDi WuYayu BaiGuoli DuBin LuoSong ZhangMingchao ChiYanhua LiuYuzheng ShaoJinlong WangShuangfei WangShuangxi Nie
Published in: Nano letters (2024)
Wearable sensors are experiencing vibrant growth in the fields of health monitoring systems and human motion detection, with comfort becoming a significant research direction for wearable sensing devices. However, the weak moisture-wicking capability of sensor materials leads to liquid retention, severely restricting the comfort of the wearable sensors. This study employs a pattern-guided alignment strategy to construct microhill arrays, endowing triboelectric materials with directional moisture-wicking capability. Within 2.25 s, triboelectric materials can quickly and directionally remove the droplets, driven by the Laplace pressure differences and the wettability gradient. The directional moisture-wicking triboelectric materials exhibit excellent pressure sensing performance, enabling rapid response/recovery (29.1/37.0 ms), thereby achieving real-time online monitoring of human respiration and movement states. This work addresses the long-standing challenge of insufficient moisture-wicking driving force in flexible electronic sensing materials, holding significant implications for enhancing the comfort and application potential of electronic skin and wearable electronic devices.
Keyphrases
  • endothelial cells
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  • blood pressure
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  • high speed
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