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首页> 外文期刊>Circuits and Systems II: Express Briefs, IEEE Transactions on >A Capacitance-to-Frequency Converter With On-Chip Passivated Microelectrodes for Bacteria Detection in Saline Buffers Up to 575 MHz
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A Capacitance-to-Frequency Converter With On-Chip Passivated Microelectrodes for Bacteria Detection in Saline Buffers Up to 575 MHz

机译:带有片上钝化微电极的电容频率转换器,用于在盐缓冲液中检测细菌,频率最高可达575 MHz

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摘要

To enable impedimetric sensing of whole-cell bacteria in a saline buffer with passivated microelectrodes, we designed a very high frequency (up to 575 MHz) complementary meta–oxide–semiconductor (CMOS) oscillator connected to on-chip interdigitated microelectrodes. The output frequency was theoretically and experimentally shown to be inversely proportional to the permittivity of the solution with a maximal error of 2%, up to an electrical conductivity of 1 S/m. As a biosensing proof-of-concept, successful experimental detection of whole-cell was performed in physiological buffers, showing a detection limit of after 20 min of bacterial incubation. The 0.25- CMOS circuit, combining sensing/readout parts, has a 0.05 area, consumes 29 mW at 250 kS/s, and can be connected to microcontrollers, making the system suitable for point-of-care diagnostics.
机译:为了能够通过钝化微电极对盐水缓冲液中的全细胞细菌进行阻抗检测,我们设计了一个非常高频率(高达575 MHz)的互补金属氧化物半导体(CMOS)振荡器,该振荡器连接至片上交叉指状微电极。理论上和实验上,输出频率与溶液的介电常数成反比,最大误差为2%,最高电导率为1 S / m。作为一种生物传感概念验证,在生理缓冲液中成功进行了全细胞实验性检测,显示出细菌孵育20分钟后的检测极限。结合了感应/读出部件的0.25-CMOS电路面积为0.05,以250 kS / s的功耗消耗29 mW,并且可以连接至微控制器,从而使该系统适用于即时诊断。

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