可穿戴计算机
电化学发光
计算机科学
可穿戴技术
材料科学
纳米技术
信号(编程语言)
汗水
微流控
电极
化学
炸薯条
光电阴极
代谢物
光电子学
智能手表
接口(物质)
作者
Wei Nie,Jie Jiang,Xi Wei,Linfeng Zhuo,Danyang Li,Mingyu Jia,Tianhua Zheng,Hua Cui
标识
DOI:10.1002/advs.202519435
摘要
Wearable sensors are transforming real-time, non-invasive health monitoring. Despite considerable advances in electrochemical and optical sensing modalities, challenges remain in achieving reliable, sensitive, and cost-effective detection of sweat metabolites due to the variable chemical composition of sweat and difficulties in device integration. Electrochemiluminescence (ECL) offers an attractive alternative for wearable sensing due to its high sensitivity and ease of integration without complex circuitry or external light sources. However, ECL is rarely used in wearable formats due to challenges in flexible electrode and stable luminophore development. Here, we present a fully soft, skin-conformable ECL chip for sweat metabolite monitoring, integrating a laser-patterned closed bipolar electrode array, a microfluidic sweat collector, and deep eutectic solvent-based ionogels as robust ECL emitters. This architecture separates sensing and reporting zones, effectively reducing signal interference from complex sweat matrices, while the ionogels enhance signal stability and device flexibility, enabling prolonged on-skin operation. Taking glucose as a model analyte, we demonstrate specific and direct ECL readout by integrating a specific enzymatic reaction with a linear range from µm to mm. The device accurately captures postprandial glucose changes, with a per-chip cost of $0.106, demonstrating its great potential for real-time metabolic tracking in personalized health monitoring or clinical diagnosis.
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