On-Chip Electrochemical Analysis System Using Nanoelectrodes and Bioelectronic CMOS Chip

Zhu X.; Ahn C.H.

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On-Chip Electrochemical Analysis System Using Nanoelectrodes and Bioelectronic CMOS Chip

机译：使用纳米电极和生物电子CMOS芯片的片上电化学分析系统

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An electrochemical microanalysis system for reversible redox species determination has been presented. This system consists of a nanoelectrochemical sensor and a complimentary metal–oxide–semiconductor (CMOS) chip for sensor signal interfacing and conditioning. The nanoelectrochemical sensor is an interdigitated array nanoelectrode fabricated using e-beam lithography and ultraviolet lithography. The CMOS chip is designed and fabricated to realize the electrochemical analysis method of sensing, which is a switch-based method. Using this switch-based method, the potential dynamics of the nanoelectrodes is recorded to evaluate the species concentration. Experimental results have shown that the detection limit of this microanalysis system on reversible redox species is in the range of 1–10 nM.

机译：已经提出了用于可逆氧化还原物质测定的电化学微分析系统。该系统由一个纳米电化学传感器和一个用于传感器信号接口和调节的互补金属氧化物半导体（CMOS）芯片组成。纳米电化学传感器是使用电子束光刻和紫外光刻制造的叉指阵列纳米电极。设计和制造CMOS芯片以实现传感的电化学分析方法，这是一种基于开关的方法。使用这种基于开关的方法，记录纳米电极的电势动态以评估物质浓度。实验结果表明，该微量分析系统对可逆氧化还原物质的检出限为1-10 nM。

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《IEEE sensors journal》 |2006年第2006期|p.1280-1286|共7页
作者
Zhu X.; Ahn C.H.;
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正文语种 eng
中图分类电工技术;计量学;
关键词
Bioelectronic complimentary metal–oxide–semiconductor (CMOS) chip; electrochemical analysis; nanoelectrodes; reversible redox species; Bioelectronic complimentary metal–oxide–semiconductor (CMOS) chip; electrochemical analysis; nanoelec;

机译：生物电子互补金属氧化物半导体芯片;电化学分析;纳米电极;可逆氧化还原物种;生物电子互补金属氧化物半导体芯片;电化学分析;纳米电子;

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1. On-Chip Electrochemical Analysis System Using Nanoelectrodes and Bioelectronic CMOS Chip [J] . Zhu X., Ahn C.H. IEEE sensors journal . 2006,第5期

机译：使用纳米电极和生物电子CMOS芯片的片上电化学分析系统
2. Postfabrication Independent Inductance and Quality Factor Adjustments of On-Chip Inductors by Above-CMOS Processing for Rapid Prototyping of Radio Frequency System on Chips [J] . Yuki Sasaki, Koji Kotani Japanese journal of applied physics . 2012,第4ISSUE2期

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3. On-chip electrostatic discharge protection for CMOS gas sensor systems-on-a-chip (SoC) [J] . Javier A. Salcedo, Juin J. Liou, Muhammad Y. Afridi, Microelectronics & Reliability . 2006,第8期

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5. Integration of CMOS technology into lab-on-chip systems applied to the development of a bioelectronic nose [D] . Datta-Chaudhuri, Timir Baran. 2015

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7. A CMOS vision system on-chip with multicore sensory processing architecture for image analysis above 1,000F/s [O] . Rodríguez-Vázquez, Ángel, Domínguez-Castro, R., Jiménez-Garrido, Francisco, 2013

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On-Chip Electrochemical Analysis System Using Nanoelectrodes and Bioelectronic CMOS Chip

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