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引用次数: 25
摘要
电化学阻抗谱(EIS)是表征生物材料的有力工具,包括脂质双分子层和许多膜蛋白。然而,传统的EIS方法在低频时非常缓慢,而这些材料在生物传感器应用中有响应。为了实现基于系系双层脂质膜(tBLM)的生物传感器密集阵列,开发了一种新的EIS方法。本文介绍了一种在1mhz ~ 100khz频率范围内快速执行EIS的方法和电路。实现这种新方法的电路已在0.5 μ m CMOS技术和3.3电压电源上实现。在膜蛋白生物传感器响应最关键的亚赫兹范围内,该电路可以在20毫秒内以8位分辨率测量阻抗,比传统的基于积分器的电路快三个数量级。虽然为生物传感器应用中的低频频谱量身定制,但EIS电路可用于测量各种传感材料中的阻抗。
On-Chip Electrochemical Impedance Spectroscopy for Biosensor Arrays
Electrochemical impedance spectroscopy (EIS) is a powerful tool for characterizing biological materials, including lipid bilayers and many membrane proteins. However, traditional EIS methods are very slow at low frequencies, where these materials respond in biosensor applications. To enable dense arrays of biosensors based on tethered bilayer lipid membranes (tBLM), a new approach for EIS has been developed. This paper introduces a methodology and circuit that can rapidly perform EIS in the 1 mHz to 100 kHz frequency range. A circuit implementing this new approach has been realized in 0.5 mum CMOS technology with 3.3 voltage power supply. In the sub-hertz range where membrane protein biosensor response is most critical, the circuit can measure impedance with 8 bit resolution in 20 ms, three orders of magnitude faster than traditional integrator-based circuits. Though tailored for the low frequency spectrum in biosensor applications, the EIS circuit can be used to measure impedance in a wide range of sensory materials.
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