呼出气冷凝液
可穿戴计算机
气体分析呼吸
纳米技术
材料科学
流体学
注意事项
微流控
计算机科学
呼气
微系统
可用性
多路复用
电化学气体传感器
持续监测
电极
光电子学
露点
生物医学工程
多路复用
加湿器
雾
作者
Jing Wang,Yong Luo,Lingjie Chen,Benxing Su,Zhirou Ouyang,Yongxiang Ji,Zhongzeng Zhou,Tailin Xu,Xueji Zhang
出处
期刊:ACS Nano
[American Chemical Society]
日期:2025-12-15
卷期号:19 (51): 42816-42825
被引量:5
标识
DOI:10.1021/acsnano.5c14778
摘要
The respiratory disease pandemic has heightened interest in breathomics. Exhaled breath condensate (EBC), which is a noninvasive and information-rich biofluid, holds great promise for personalized health management. However, insufficient collection and limited analytical versatility remain major challenges for wearable EBC analysis. Here, the bioinspired design and performance of a wearable face mask for efficient sampling (0.86 μL min–1 per well) and in situ electrochemical monitoring of four biomarkers (alcohol, NO2–, NH4+, and pH) in EBC are reported. The face mask sensor platform consists of a multistage thermoelectric cooling module, a bionic superhydrophobic self-cleaning cover, an expandable 4 × 4 electrode array, and an electrochemical microsystem readout circuit. The surface temperature rapidly decreases to 12.5 °C within 1 min, reaching the exhaled vapor dew point to ensure rapid condensation. A wettability-gradient interface, constructed by a patterned superhydrophobic micro/nanostructured PDMS cover and hydrophilic electrode regions, effectively guides the biofluid into the sensor regions and stably fixes it even under 180° rotation. The usability of this system is demonstrated by tracking metabolic responses in healthy participants following alcohol and high-protein food intake, as well as by enabling continuous dynamic monitoring of four biomarkers in EBC. This wearable EBC analysis system offers a versatile strategy for real-time breath analysis and may help personalized respiratory healthcare, metabolism tracking, and environmental exposure analysis.
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