水下
材料科学
可穿戴计算机
导电体
解耦(概率)
耐久性
石墨烯
信号(编程语言)
聚氨酯
纳米技术
探测器
多孔性
可穿戴技术
光电子学
聚苯胺
复合材料
碳纳米管
计算机科学
声学
马甲
热电效应
复合数
海洋工程
磺酸盐
标度系数
图层(电子)
数码产品
作者
Wendi Liu,Xiaolei Shi,Xinyang He,Suiyuan Zhu,Zhen Li,Chengzu Li,Ding Zhang,Meng Li,Xiaoyun Wu,Hongnan Zhang,Liming Wang,Jian Xiong,Zhi-Gang Chen
标识
DOI:10.1038/s41467-025-68055-y
摘要
Underwater tasks such as ocean exploration and emergency rescue demand advanced wearable sensors. However, multifunctional underwater sensors capable of integrating self-powered signal transmission, effective thermal-moisture regulation, and multi-signal decoupling remain unreported. Here, we present a three-dimensional multi-functional thermoelectric device composed of highly porous polyurethane foam coated with a waterproof conductive layer made from single-walled carbon nanotubes, poly(3,4-ethylenedioxythiophene)-polystyrene sulfonate, and waterborne polyurethane. Hydrogen bonding between the sulfonate groups in poly(3,4-ethylenedioxythiophene)-polystyrene sulfonate and the -NH groups in waterborne polyurethane enhances water resistance (contact angle of 112°) and mechanical durability under repeated compression (20,000 cycles), while achieving an ultra-fast response time of 40 ms. The device exhibits high breathability (406 mm s-1) owing to its porous three-dimensional architecture. Additionally, it enables precise temperature sensing with a resolution of 0.05 K and a response time of 400 ms. Importantly, it successfully decouples temperature and strain signals in underwater environments. Leveraging its waterproof and signal-decoupling capabilities, we further demonstrate a fully integrated underwater monitoring and interaction system encompassing sensing hardware and decision-making logic. This work represents a significant advancement in wearable underwater electronics and offers another perspective for reliable, real-time human-machine interaction in aquatic settings.
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