利用碳纳米管纳米电极阵列开发超灵敏电子生物传感器的系统优化。

Jessica E Koehne, Jun Li, Alan M Cassell, Hua Chen, Qi Ye, Jie Han, M Meyyappan
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引用次数: 0

摘要

垂直排列的多壁碳纳米管(MWCNTs)已被报道用于制造纳米电极阵列。本文报道了进一步优化该系统以开发超灵敏DNA传感器的研究。聚合物包覆或SiO2包覆可提高生长MWCNT阵列的机械稳定性。后一种方法为MWCNTs的侧壁和下面的金属层提供了良好的电子和离子绝缘,并用电化学阻抗谱对其进行了研究。绝缘确保了明确的纳米电极行为。本文开发了一种利用独特的石墨化学特性,在MWCNTs的开口端选择性地功能化生物分子,同时保持SiO2表面钝化的方法。该系统具有接近荧光技术极限的超高灵敏度,可用于DNA检测。
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System optimization for the development of ultrasensitive electronic biosensors using carbon nanotube nanoelectrode arrays.

Vertically aligned multi-walled carbon nanotubes (MWCNTs) have been reported in fabricating nanoelectrode arrays. Further studies on optimizing this system for the development of ultrasensitive DNA sensors are reported here. The mechanical stability of the as-grown MWCNT array can be improved by polymer coating or SiO2 encapsulation. The latter method provides excellent electronic and ionic insulation to the sidewall of MWCNTs and the underlying metal layer, which is investigated with electrochemical impedance spectroscopy. The insulation ensures well-defined nanoelectrode behavior. A method is developed for selectively functionalizing biomolecules at the open end of MWCNTs while keeping the SiO2 surface passivated, using the unique graphitic chemistry. An ultrahigh sensitivity approaching the limit of fluorescence techniques is obtained with this system for DNA detection.

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