石墨烯基生物分子传感器件的第一性原理研究

基于第一性原理模拟，我们构建了一种具有石墨烯电极的纳米间隙生物分子传感器件的理论模型．研究发现，当碱基分子胞嘧啶、甲基化胞嘧啶和羟甲基化胞嘧啶分别通过器件时，器件横向电流的大小差异约有1个数量级，器件对此类分子具有一定的分辨能力．分子之间的区分度大小受单链脱氧核糖核酸（DNA）中相邻碱基分子间的相互作用及碱基分子构型的影响．研究工作表明，此类石墨烯基分子传感器可准确高效地区分具有不同结构的碱基分子，为准确定位DNA链中的变异碱基分子提出了一种新的思路．...

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Published in	物理化学学报 Vol. 29; no. 2; pp. 250 - 254
Main Author	邹辉倪祥彭盛霖欧阳俊陈羽欧阳方平
Format	Journal Article
Language	Chinese
Published	中南大学物理与电子学院, 长沙 410083%中南大学粉末冶金研究院, 粉末冶金国家重点实验室, 长沙 410083 2013
Subjects	横向电导甲基化胞嘧啶石墨烯第一性原理羟甲基化胞嘧啶横向电导 Hydroxymethylcytosine Methylcytosine 羟甲基化胞嘧啶第一性原理 Graphene Transverse conductance 石墨烯 First-principles 甲基化胞嘧啶
Online Access	Get full text
ISSN	1000-6818
DOI	10.3866/PKU.WHXB201211141

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Abstract	基于第一性原理模拟，我们构建了一种具有石墨烯电极的纳米间隙生物分子传感器件的理论模型．研究发现，当碱基分子胞嘧啶、甲基化胞嘧啶和羟甲基化胞嘧啶分别通过器件时，器件横向电流的大小差异约有1个数量级，器件对此类分子具有一定的分辨能力．分子之间的区分度大小受单链脱氧核糖核酸（DNA）中相邻碱基分子间的相互作用及碱基分子构型的影响．研究工作表明，此类石墨烯基分子传感器可准确高效地区分具有不同结构的碱基分子，为准确定位DNA链中的变异碱基分子提出了一种新的思路．
AbstractList	O641; 基于第一性原理模拟,我们构建了一种具有石墨烯电极的纳米间隙生物分子传感器件的理论模型.研究发现,当碱基分子胞嘧啶、甲基化胞嘧啶和羟甲基化胞嘧啶分别通过器件时,器件横向电流的大小差异约有1个数量级,器件对此类分子具有一定的分辨能力.分子之间的区分度大小受单链脱氧核糖核酸(DNA)中相邻碱基分子间的相互作用及碱基分子构型的影响.研究工作表明,此类石墨烯基分子传感器可准确高效地区分具有不同结构的碱基分子,为准确定位DNA链中的变异碱基分子提出了一种新的思路. 基于第一性原理模拟，我们构建了一种具有石墨烯电极的纳米间隙生物分子传感器件的理论模型．研究发现，当碱基分子胞嘧啶、甲基化胞嘧啶和羟甲基化胞嘧啶分别通过器件时，器件横向电流的大小差异约有1个数量级，器件对此类分子具有一定的分辨能力．分子之间的区分度大小受单链脱氧核糖核酸（DNA）中相邻碱基分子间的相互作用及碱基分子构型的影响．研究工作表明，此类石墨烯基分子传感器可准确高效地区分具有不同结构的碱基分子，为准确定位DNA链中的变异碱基分子提出了一种新的思路．
Abstract_FL	First-principles calculations were applied to design and study the electron transport behavior of a biomolecular sensor with graphene-based electrodes. It is shown that the designed biosensor is capable of distinguishing different nucleotide molecules such as cytosine, methylcytosine, and hydroxymethylcytosine. The current was seen to change by nearly one order of magnitude, while molecules passed through the device individual y. The resolution capacity of the present device was primarily determined by the interactions and specific configurations of two adjacent single-stranded desoxyribonucleic acid (DNA) molecules and their specific configurations. This graphene-based biosensor was proved to be effective and efficient in detecting and distinguishing different DNA molecules, which provides a new potential method to pinpoint exactly varietal base molecules in DNA chains for the genetic information.
Author	邹辉倪祥彭盛霖欧阳俊陈羽欧阳方平
AuthorAffiliation	中南大学物理与电子学院,长沙410083 中南大学粉末冶金研究院,粉末冶金国家重点实验室,长沙410083
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Keywords	横向电导 Hydroxymethylcytosine Methylcytosine 羟甲基化胞嘧啶第一性原理 Graphene Transverse conductance 石墨烯 First-principles 甲基化胞嘧啶
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Notes	11-1892/06 First-principles calculations were applied to design and study the electron transport behavior of a biomolecular sensor with graphene-based electrodes. It is shown that the designed biosensor is capable of distinguishing different nucleotide molecules such as cytosine, methylcytosine, and hydroxymethylcytosine. The current was seen to change by nearly one order of magnitude, while molecules passed through the device individually. The resolution capacity of the present device was primarily determined by the interactions and specific configurations of two adjacent single-stranded desoxyribonucleic acid （DNA） molecules and their specific configurations. This graphene-based biosensor was proved to be effective and efficient in detecting and distinguishing different DNA molecules, which provides a new potential method to pinpoint exactly varietal base molecules in DNA chains for the genetic information. First-principles; Graphene; Methylcytosine; Hydroxymethylcytosine;Transverse conductance ZOU Hui NI Xian
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SubjectTerms	横向电导甲基化胞嘧啶石墨烯第一性原理羟甲基化胞嘧啶
Title	石墨烯基生物分子传感器件的第一性原理研究
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