Nanoscale topographical replication of graphene architecture by artificial DNA nanostructures

Y. Moon; J. Shin; S. Seo; J. Park; S. R. Dugasani; S. H. Woo; T. Park; S. H. Park; J. R. Ahn

doi:10.1063/1.4882241

Nanoscale topographical replication of graphene architecture by artificial DNA nanostructures

Y. Moon
, J. Shin
, S. Seo
, J. Park
, S. R. Dugasani
, S. H. Woo
, T. Park
, S. H. Park
, J. R. Ahn

Department of Physics

Sungkyunkwan University
Chungnam National University

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Despite many studies on how geometry can be used to control the electronic properties of graphene, certain limitations to fabrication of designed graphene nanostructures exist. Here, we demonstrate controlled topographical replication of graphene by artificial deoxyribonucleic acid (DNA) nanostructures. Owing to the high degree of geometrical freedom of DNA nanostructures, we controlled the nanoscale topography of graphene. The topography of graphene replicated from DNA nanostructures showed enhanced thermal stability and revealed an interesting negative temperature coefficient of sheet resistivity when underlying DNA nanostructures were denatured at high temperatures.

Original language	English
Article number	231904
Journal	Applied Physics Letters
Volume	104
Issue number	23
DOIs	https://doi.org/10.1063/1.4882241
State	Published - 9 Jun 2014

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10.1063/1.4882241

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title = "Nanoscale topographical replication of graphene architecture by artificial DNA nanostructures",

abstract = "Despite many studies on how geometry can be used to control the electronic properties of graphene, certain limitations to fabrication of designed graphene nanostructures exist. Here, we demonstrate controlled topographical replication of graphene by artificial deoxyribonucleic acid (DNA) nanostructures. Owing to the high degree of geometrical freedom of DNA nanostructures, we controlled the nanoscale topography of graphene. The topography of graphene replicated from DNA nanostructures showed enhanced thermal stability and revealed an interesting negative temperature coefficient of sheet resistivity when underlying DNA nanostructures were denatured at high temperatures.",

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AU - Moon, Y.

AU - Shin, J.

AU - Seo, S.

AU - Park, J.

AU - Dugasani, S. R.

AU - Woo, S. H.

AU - Park, T.

AU - Park, S. H.

AU - Ahn, J. R.

PY - 2014/6/9

Y1 - 2014/6/9

N2 - Despite many studies on how geometry can be used to control the electronic properties of graphene, certain limitations to fabrication of designed graphene nanostructures exist. Here, we demonstrate controlled topographical replication of graphene by artificial deoxyribonucleic acid (DNA) nanostructures. Owing to the high degree of geometrical freedom of DNA nanostructures, we controlled the nanoscale topography of graphene. The topography of graphene replicated from DNA nanostructures showed enhanced thermal stability and revealed an interesting negative temperature coefficient of sheet resistivity when underlying DNA nanostructures were denatured at high temperatures.

AB - Despite many studies on how geometry can be used to control the electronic properties of graphene, certain limitations to fabrication of designed graphene nanostructures exist. Here, we demonstrate controlled topographical replication of graphene by artificial deoxyribonucleic acid (DNA) nanostructures. Owing to the high degree of geometrical freedom of DNA nanostructures, we controlled the nanoscale topography of graphene. The topography of graphene replicated from DNA nanostructures showed enhanced thermal stability and revealed an interesting negative temperature coefficient of sheet resistivity when underlying DNA nanostructures were denatured at high temperatures.

UR - https://www.scopus.com/pages/publications/84902504008

U2 - 10.1063/1.4882241

DO - 10.1063/1.4882241

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JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 23

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ER -

Nanoscale topographical replication of graphene architecture by artificial DNA nanostructures

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