可穿戴计算机
覆盖层
材料科学
无线传感器网络
无线
衰减
干扰(通信)
计算机科学
响应时间
双金属片
功率(物理)
光电子学
可穿戴技术
纳米柱
电子工程
线性
纳米技术
灵敏度(控制系统)
电光传感器
ISM波段
探测器
持续监测
双层
作者
Yueru Jiang,Yu Wang,Tianshuang Wang,Liupeng Zhao,Dan Li,Xueying Kou,Peng Sun,Guangjie Lu
出处
期刊:ACS Sensors
[American Chemical Society]
日期:2026-03-16
卷期号:11 (3): 2656-2667
被引量:3
标识
DOI:10.1021/acssensors.5c04648
摘要
Recent advances in flexible metal-organic framework (MOF) films have injected momentum into the development of wearable gas sensors. However, current MOF-based wearable sensors suffer from mutual interference and often compromise in power consumption and wearing comfort, limiting their suitability for skin-interfaced applications. Here, we report a wireless, battery-free, wearable gas sensor patch based on a flexible inductance-capacitance (LC) resonator. This sensor features a bilayer flexible film composed of a 2D bimetallic Cu/Co-HHTP conjugate MOF ( c -MOF) sensing layer and a Pd/SSZ-13 zeolite overlayer. Specifically, the zeolite overlayer functions as an NO 2 -adsorbing interface that captures incoming NO 2 molecules, thereby preventing them from reacting with the underlying 2D c -MOF sensing layer. Accordingly, the wireless sensor achieves linear and interference-resistant detection of low concentrated NH 3 even in the presence of NO 2, while maintaining excellent mechanical flexibility, cyclic stability, and negligible baseline drift, exhibiting less than 6.2% response attenuation after repeated bending at 120°. The performance of the device is further validated through a skin-adherent, wireless, passive sensing system capable of continuous NH 3 monitoring in complex environments. The proposed wireless wearable MOF-based sensor patch is highly transformative, offering benefits for various wearable applications. Device performance under high-humidity conditions is still constrained, indicating that further optimization is necessary.
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