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Graphene Synthesis on Cubic SiC/Si Wafers. Perspectives for Mass Production of Graphene-Based Electronic Devices

Aristov, Victor Yu.; Urbanik, Grzegorz; Kummer, Kurt; Vyalikh, Denis V.; Molodtsova, Olga V.; Preobrajenski, Alexei LU ; Zakharov, Alexei LU ; Hess, Christian; Haenke, Torben and Buechner, Bernd, et al. (2010) In Nano Letters 10(3). p.992-995
Abstract
The outstanding properties of graphene, a single graphite layer, render it a top candidate for substituting silicon in future electronic devices, The so far exploited synthesis approaches, however, require conditions typically achieved in specialized laboratories and result in graphene sheets whose electronic properties are often altered by interactions with substrate materials. The development of graphene-based technologies requires an economical fabrication method compatible with mass production. Here we demonstrate for the fist Lime the feasibility of graphene synthesis on commercially available cubic SiC/Si substrates of >300 mm in diameter, which result in graphene flakes electronically decoupled from the substrate. After... (More)
The outstanding properties of graphene, a single graphite layer, render it a top candidate for substituting silicon in future electronic devices, The so far exploited synthesis approaches, however, require conditions typically achieved in specialized laboratories and result in graphene sheets whose electronic properties are often altered by interactions with substrate materials. The development of graphene-based technologies requires an economical fabrication method compatible with mass production. Here we demonstrate for the fist Lime the feasibility of graphene synthesis on commercially available cubic SiC/Si substrates of >300 mm in diameter, which result in graphene flakes electronically decoupled from the substrate. After optimization of the preparation procedure, the proposed synthesis method can represent a further big step toward graphene-based electronic technologies. (Less)
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type
Contribution to journal
publication status
published
subject
keywords
Graphene layer, synthesis, cubic SIC surface
in
Nano Letters
volume
10
issue
3
pages
992 - 995
publisher
The American Chemical Society
external identifiers
  • wos:000275278200041
  • scopus:77949426482
ISSN
1530-6992
DOI
10.1021/nl904115h
language
English
LU publication?
yes
id
42c08a0f-3c89-4775-aa63-ddf146bbd2ce (old id 1589444)
date added to LUP
2010-04-20 10:52:49
date last changed
2018-07-15 03:52:35
@article{42c08a0f-3c89-4775-aa63-ddf146bbd2ce,
  abstract     = {The outstanding properties of graphene, a single graphite layer, render it a top candidate for substituting silicon in future electronic devices, The so far exploited synthesis approaches, however, require conditions typically achieved in specialized laboratories and result in graphene sheets whose electronic properties are often altered by interactions with substrate materials. The development of graphene-based technologies requires an economical fabrication method compatible with mass production. Here we demonstrate for the fist Lime the feasibility of graphene synthesis on commercially available cubic SiC/Si substrates of >300 mm in diameter, which result in graphene flakes electronically decoupled from the substrate. After optimization of the preparation procedure, the proposed synthesis method can represent a further big step toward graphene-based electronic technologies.},
  author       = {Aristov, Victor Yu. and Urbanik, Grzegorz and Kummer, Kurt and Vyalikh, Denis V. and Molodtsova, Olga V. and Preobrajenski, Alexei and Zakharov, Alexei and Hess, Christian and Haenke, Torben and Buechner, Bernd and Vobornik, Ivana and Fujii, Jun and Panaccione, Giancarlo and Ossipyan, Yuri A. and Knupfer, Martin},
  issn         = {1530-6992},
  keyword      = {Graphene layer,synthesis,cubic SIC surface},
  language     = {eng},
  number       = {3},
  pages        = {992--995},
  publisher    = {The American Chemical Society},
  series       = {Nano Letters},
  title        = {Graphene Synthesis on Cubic SiC/Si Wafers. Perspectives for Mass Production of Graphene-Based Electronic Devices},
  url          = {http://dx.doi.org/10.1021/nl904115h},
  volume       = {10},
  year         = {2010},
}