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Low Temperature Interfacial Graphene Growth Using Thin Metal Catalyst and Solid Carbon Films

Published online by Cambridge University Press:  30 July 2020

Nicholas Ries ,
Nickola Ovchinnikov ,
Dibyesh Shrestha ,
Ruben Contreras  and
Jun Jiao
Nicholas Ries
Affiliation:
Portland State University, Portland, Oregon, United States
Nickola Ovchinnikov
Affiliation:
Portland State University, Portland, Oregon, United States
Dibyesh Shrestha
Affiliation:
Portland State University, Portland, Oregon, United States
Ruben Contreras
Affiliation:
Portland State University, Portland, Oregon, United States
Jun Jiao
Affiliation:
Portland State University, Portland, Oregon, United States

Abstract

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Type
New Frontiers in Electron Microscopy of Two-dimensional Materials
Information
Microscopy and Microanalysis , Volume 26 , Supplement S2 , August 2020 , pp. 2352 - 2354
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Copyright
Copyright © Microscopy Society of America 2020

References

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Lampert, L.F., Caudillo, R., Lindner, T., Jiao, J., C-Plane Sapphire and Catalyst Confinement Enable Wafer-Scale High-Quality Graphene Growth, The Journal of Physical Chemistry, 120, (2016), p. 26498-26507Google Scholar
Sun, Z., Yan, Z., Yao, J., Beitler, E., Zhu, Y., Tour, J.M., Growth of Graphene from Solid Carbon Sources, Nature, 468, (2010), p. 549-55210.1038/nature09579CrossRefGoogle ScholarPubMed
Ferrari, A.C., Robertson, J., Interpretation of Raman Spectra of Disordered and Amorphous Carbon, The American Physical Review B, 61, (2000), p. 095-107Google Scholar
Zabel, J., Nair, R.R., Ott, A., Georgiou, T., Geim, A.K., Novoselov, K.S., Casiraghi, C., Raman Spectroscopy of Graphene and Bilayer under Biaxial Strain: Bubbles and Ballons, ACS Nano Letters, 12, (2012), p. 617-62110.1021/nl203359nCrossRefGoogle Scholar
Research for this project is supported in part by Intel Corporation and the Oregon Metals Initiative. The authors would also like to acknowledge the Build/EXITO scholar and NSF Research Experience for Undergraduates (REU) programs.Google Scholar