制备及表征具有导电性和光致发光性的 DNA 模板聚吲哚纳线。

Preparation and characterization of conductive and photoluminescent DNA-templated polyindole nanowires.

机构信息

Chemical Nanoscience Laboratories, School of Chemistry, Bedson Building, Engineering and Advanced Materials, Newcastle University, Newcastle Upon Tyne NE1 7RU, United Kingdom.

出版信息

ACS Nano. 2010 Apr 27;4(4):2149-59. doi: 10.1021/nn9014533.

DOI:10.1021/nn9014533

PMID:20218665

Abstract

Polyindole (PIn) nanowires were formed on a lambda-DNA template by chemical oxidation of indole using aqueous FeCl3. The resulting nanowires are smooth, regular, conductive and had diameters in the range of 5-30 nm. These features allow them to be aligned by molecular combing and studied by scanned conductance microscopy, conductive AFM, and two-terminal I-V measurements. Using this combination of measurements, we find that the conductivity of PIn/DNA nanowires is between 2.5 and 40 S cm(-1) at room temperature, which is substantially greater than that in previous reports on the bulk polyindole conductivity (typically 10(-2)-10(-1) S cm(-1)). The conductance at zero bias shows an Arrhenius-type of dependence on temperature over the range of 233 to 373 K, and the values observed upon heating and cooling are repeatable within 5%; this behavior is consistent with a hopping mechanism of conductivity.

摘要

聚吲哚（PIn）纳米线是在 λ-DNA 模板上通过吲哚的化学氧化作用，使用水性 FeCl3 形成的。所得纳米线光滑、规则、导电，直径在 5-30nm 范围内。这些特性使其能够通过分子梳理排列，并通过扫描电导显微镜、导电原子力显微镜和双端 I-V 测量进行研究。使用这种组合测量方法，我们发现 PIn/DNA 纳米线在室温下的电导率在 2.5 到 40 S cm(-1) 之间，远高于之前关于块状聚吲哚电导率的报告（通常为 10(-2)-10(-1) S cm(-1)）。在 233 到 373 K 的温度范围内，零偏压下的电导表现出与 Arrhenius 类型的温度依赖性，并且在加热和冷却过程中观察到的值在 5%以内是可重复的；这种行为与电导率的跳跃机制一致。

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制备及表征具有导电性和光致发光性的 DNA 模板聚吲哚纳线。

Preparation and characterization of conductive and photoluminescent DNA-templated polyindole nanowires.

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