Facile and Scalable Fabrication of Molecularly Imprinted Polymer (MIP) Sensors on Poriferous Laser-Engraved Graphene Electrodes for Stress Monitoring

IF 3.6 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analyst Pub Date : 2024-12-06 DOI:10.1039/d4an01389a

Atul Sharma, Rachel Owyeung, Ayanna Thomas, Sohel Siraj, Bishal Kumar Keshari, Parikshit Sahatiya, Sameer Sonkusale

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Abstract

Monitoring cortisol levels is essential for understanding the body's response to stress. Traditional cortisol testing is confined to centralized labs, and current portable platforms are based on slow and complex assays. Here, we introduce a portable, disposable, non-invasive, and sensitive electrochemical sensor strip created using electropolymerized molecularly imprinted polymers (eMIPs) on laser engraved graphene (LEG) electrodes for rapid, simple, and reliable salivary cortisol detection. Herein, the characteristics of LEGs generated on a polyimide (PI) film with different laser processing parameters are also studied and optimized. The sensor quantifies salivary cortisol by selectively binding onto the cortisol-imprinted electropolymerized polypyrrole-Prussian blue (eMIP-PPy/PB) film on LEG electrodes. The PB redox probes embedded in the eMIP produce direct electrical signals upon cortisol binding, allowing sensitive and label-free amperometric detection. The developed cort-eMIP/LEG sensor strip displays an outstanding dynamic range (0.10 to 10,000 pg mL-1), a remarkable limit of detection (0.08 pg mL-1), and a strong correlation coefficient (R2) of 0.9983 (n=4) for cortisol detection in human saliva. A rapid 3-minute analysis can more effectively measure cortisol levels in real-time than traditional methods. This sensor's performance was evaluated in human samples and validated two-way using enzyme-linked immunosorbent assays (ELISAs) and a third-party provider, Salimetrics, on 12 student volunteers exposed to varying stress levels. Results show an excellent correlation (r = 0.9948) between the developed sensors and standardized tests. The cort-eMIP/LEG cortisol sensor strip offers a simple, accessible, sample-to-answer diagnostic platform for stress monitoring.

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多孔激光雕刻石墨烯电极上分子印迹聚合物（MIP）传感器的制备及其应用

监测皮质醇水平对于了解身体对压力的反应至关重要。传统的皮质醇测试仅限于集中的实验室，而目前的便携式平台是基于缓慢而复杂的分析。在这里，我们介绍了一种便携式、一次性、无创、灵敏的电化学传感器条，该传感器条使用电聚合分子印迹聚合物（eMIPs）在激光雕刻石墨烯（LEG）电极上制成，用于快速、简单、可靠的唾液皮质醇检测。在此基础上，研究了不同激光加工参数下聚酰亚胺（PI）薄膜上产生的腿的特性，并对其进行了优化。该传感器通过选择性结合在LEG电极上的皮质醇印迹电聚合聚吡咯-普鲁士蓝（eMIP-PPy/PB）膜来定量唾液皮质醇。嵌入eMIP中的PB氧化还原探针在皮质醇结合时产生直接电信号，从而实现敏感和无标记的安培检测。所开发的cort-eMIP/LEG传感器条具有良好的动态范围（0.10 ~ 10,000 pg mL-1），显著的检测限（0.08 pg mL-1），对人唾液中皮质醇的检测具有很强的相关系数（R2） 0.9983 （n=4）。快速的3分钟分析可以比传统方法更有效地实时测量皮质醇水平。该传感器的性能在人体样本中进行了评估，并通过酶联免疫吸附试验（elisa）和第三方供应商Salimetrics对12名暴露在不同压力水平下的学生志愿者进行了双向验证。结果表明，开发的传感器与标准化测试之间具有良好的相关性（r = 0.9948）。cort-eMIP/LEG皮质醇传感器试条为压力监测提供了一个简单、方便、样本到答案的诊断平台。

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