DNA-Directed Self-Assembly of Microscopic 1-D Carbon Nanotube Wire

2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2007-04-23 DOI:10.1109/NEMS.2007.352196

Jin-Woo Kim, N. Kotagiri, R. Deaton, S. Tung

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Abstract

Molecular wire construction using DNA-directed self-assembly of multi-walled carbon nanotubes (MWNTs) has been attempted. MWNTs were selected owing to their exceptional electrical and structural properties. DNA, which possesses specific molecular recognition properties, served as the engine for the assembly. Non-crosshybridizing (NCH) sequences were designed to impart specificity and high throughput reaction. Stepwise manufacturing of the wire was accomplished by first functionalizing the NCH 20 base pair single-stranded sequences to the tips of MWNT using amide linkage. The adducts were then utilized to self-assemble 1D nanotube wire through DNA hybridization reactions between two complementary ssDNAs functionalized to the MWNT tips. TEM, epi-fluorescent microscopy and AFM analyses showed successful assemblies of micrometer-scale 1D MWNT-DNA wires, ranging from 2.7-20 mum. The results demonstrate great potentials of the DNA-guided self-assembly process, which would provide an uncomplicated, versatile and inexpensive way to manufacture micrometer-scale molecular wires.

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微观一维碳纳米管线的dna定向自组装

利用dna定向自组装的多壁碳纳米管(MWNTs)构建分子线已被尝试。MWNTs因其特殊的电学和结构特性而被选中。具有特定分子识别特性的DNA充当了组装的引擎。非交叉杂交(NCH)序列设计具有特异性和高通量反应。通过首先使用酰胺连接将nch20碱基对单链序列功能化到MWNT的尖端，逐步制造金属丝。然后利用加合物通过两个互补的被功能化为MWNT尖端的ssdna之间的DNA杂交反应自组装1D纳米管丝。透射电镜、荧光显微镜和原子力显微镜分析显示，成功组装了微米尺度的1D MWNT-DNA线，长度从2.7-20 μ m不等。结果表明，dna引导的自组装工艺具有巨大的潜力，它将为制造微米级分子线提供一种简单、通用和廉价的方法。

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2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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