Portable All-in-One Electroanalytical Device for Point of Care

蓝牙 计算机科学 接口(物质) 注意事项 数码产品 低功耗蓝牙技术 无线 点(几何) 检测点注意事项 图形用户界面 计算机硬件 生物电子学 嵌入式系统 移动设备 电子工程 电气工程 用户界面 材料科学 电分析法 实时计算 微控制器 无线传感器网络
作者
Hyusim Park,Younghun Park,Shanthala Lakshminarayana,Hyun-Min Jung,Min-Yeong Kim,Kyu Hwan Lee,Sungyong Jung
出处
期刊:IEEE Access [Institute of Electrical and Electronics Engineers]
卷期号:10: 68700-68710 被引量:16
标识
DOI:10.1109/access.2022.3186678
摘要

Recent technological advancements such as an expansion of available biomarkers and an incremental burden of chronic and infectious diseases made point of care (POC) devices in strong demand. It has a potential to surpass conventional lab-based devices in terms of time, cost, accessibility, and even accuracy. This potential strongly depends on an availability of affordable and miniaturized electronic POC devices that can provide a fast and sensitive response. This paper presents an all-in-one electroanalytical device (AED) which is a cost-effective, field-ready, and miniaturized electronic POC device integrated with the most commonly used electroanalytical techniques such as amperometric, voltammetric, potentiometric, conductometric, and impedimetric techniques. The proposed AED can analyze multiple electrochemical sensors simultaneously while having a very small size of 48 mm $\times37$ mm, including eight disposable screen-printed electrochemical sensor (SPES) connectors. The device supports wired communication using a universal serial bus (USB) and wireless communication with Bluetooth Low Energy (BLE). Furthermore, user-friendly customized Graphical User Interface (GUI) has been developed to control the device and send obtained data to the user. The system is evaluated through electrical tests to confirm the device accuracy. Subsequently, electrochemical experiments were conducted to evaluate device’s performance in the field. These experiments indicated that the developed device operates as an electrochemical sensing device for POC applications. The proposed portable electroanalytical device can perform the most of electroanalytical methods in a single device which has very small form factor and capability to interpret multiple sensors at a time with user friendly interface.

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