可穿戴计算机
微分脉冲伏安法
材料科学
可穿戴技术
计算机科学
电化学气体传感器
纳米技术
循环伏安法
电化学
化学
嵌入式系统
电极
物理化学
作者
Shichao Ding,Sitao Li,Zhaoyuan Lyu,Jiachi Zhou,S. Q. Tang,Lingzhe Fang,Wenjie Zang,Pengtao Zhang,Sunjae Kim,Tao Li,Xiaoqing Pan,Dan Du,Yuehe Lin,Joseph Wang
标识
DOI:10.1007/s44258-024-00027-1
摘要
Abstract Uric acid (UA) is a vital biomarker for the diagnosis and management of various health conditions, including cardiovascular diseases, gout, kidney disorders, metabolic syndrome, and wound healing. Despite significant advances in wearable sensor technology, challenges persist in developing wearable sensors that are capable of maintaining high sensitivity, selectivity, and stability. In this study, we present an epidermal sensing platform enhanced with single-atom materials (SAMs) designed for flexible and orthogonal electrochemical detection of UA. We designed and synthesized an SAM with Fe-N 5 active sites to boost the electrochemical sensing signals, integrating it with laser-engraved graphene (LEG) to fabricate a wearable SAM-based UA patch sensor. This design provides superior UA detection performance compared to sensors based on conventional nanomaterials. In addition, we enhanced the detection accuracy and range by using an orthogonal approach that combines direct oxidation through differential pulse voltammetry (DPV) along with parallel biocatalytic amperometric detection. The resulting SAM-based UA orthogonal sensor patch demonstrated exceptional performance in wearable applications through tests measuring sweat UA levels in subjects before and after consuming a purine-rich diet. Graphical Abstract
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