基于自组装单分子层的电化学生物传感的原位电动增强。
In situ electrokinetic enhancement for self-assembled-monolayer-based electrochemical biosensing.
机构信息
Department of Aerospace and Mechanical Engineering, University of Arizona, Tucson, Arizona 85721, United States.
出版信息
Anal Chem. 2012 Mar 20;84(6):2702-7. doi: 10.1021/ac203245j. Epub 2012 Mar 6.
Abstract
This study reports a multifunctional electrode approach which directly implements electrokinetic enhancement on a self-assembled-monolayer-based electrochemical sensor for point-of-care diagnostics. Using urinary tract infections as a model system, we demonstrate that electrokinetic enhancement, which involves in situ stirring and heating, can enhance the sensitivity of the strain specific 16S rRNA hybridization assay for 1 order of magnitude and accelerate the time-limiting incubation step with a 6-fold reduction in the incubation time. Since the same electrode platform is used for both electrochemical signal enhancement and electrochemical sensing, the multifunctional electrode approach provides a highly effective strategy toward fully integrated lab-on-a-chip systems for various biomedical applications.
摘要
本研究报告了一种多功能电极方法,该方法直接在基于自组装单层的电化学传感器上实现电动增强,用于即时诊断。我们以尿路感染为模型系统,证明了电动增强(包括原位搅拌和加热)可以将针对特定菌株的 16S rRNA 杂交分析的灵敏度提高 1 个数量级,并将时间限制的孵育步骤加速 6 倍,孵育时间缩短至原来的 1/6。由于相同的电极平台既用于电化学信号增强,又用于电化学传感,因此多功能电极方法为各种生物医学应用的完全集成式片上实验室系统提供了一种非常有效的策略。
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