The effect of multi-step Cu surface oxidization on growth of single crystal graphene by low pressure chemical vapor deposition
ORAL
Abstract
There has been much recent interest in the growth large area single crystal graphene flakes as an approach for overcoming the relatively low carrier mobility and the multigrain structure observed in Chemical Vapor Deposition (CVD) graphene. [1] One approach for growing large-sized single crystal graphene by CVD, [2] involves limiting the nucleation density of graphene on the copper foil surface that is often used as a catalyst for the growth of CVD graphene. Here, we report the results of a study of CVD growth of graphene following surface modification of the copper foil by oxidizing the copper foil at different stages of the growth process. Thus, we detail the effect of copper surface oxidization at different steps of the growth for controlling the nucleation on the size and the quality of relatively large sized single crystal graphene flakes. The graphene layers are characterized by various methods and the results of the study are reported.
*This work was supported by the NSF under Grant No. ECCS-1710302, and by the ARO under Grant No. W911NF-15-1-0433.
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Presenters
Sajith Withanage
Physics and Astronomy, Georgia State University
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Department of Physics and Astronomy, Georgia State University
Physics & Astronomy, Georgia State University
Georgia State University
Authors
Sajith Withanage
Physics and Astronomy, Georgia State University
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Department of Physics and Astronomy, Georgia State University
Physics & Astronomy, Georgia State University
Georgia State University
Tharanga Nanayakkara
Physics and Astronomy, Georgia State University
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Department of Physics and Astronomy, Georgia State University
Physics & Astronomy, Georgia State University
Georgia State University
Binuka Gunawardana
Physics and Astronomy, Georgia State University
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Department of Physics and Astronomy, Georgia State University
Physics & Astronomy, Georgia State University
Georgia State University
C. Rasadi Munasinghe
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Department of Physics and Astronomy, Georgia State University
Physics & Astronomy, Georgia State University
Georgia State University
U. Kushan Wijewardena
Physics and Astronomy, Georgia State University
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Department of Physics and Astronomy, Georgia State University
Physics & Astronomy, Georgia State University
Georgia State University
Rasanga Samaraweera
Physics and Astronomy, Georgia State University
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Department of Physics and Astronomy, Georgia State University
Physics & Astronomy, Georgia State University
Georgia State University
Annika Kriisa
Physics and Astronomy, Georgia State University
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Georgia State University
Department of Physics and Astronomy, Georgia State University
Physics & Astronomy, Georgia State University
Ramesh Mani
Physics and Astronomy, Georgia State University
Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30303, USA
Georgia State University
Department of Physics and Astronomy, Georgia State University
