Influence of substrate type and quality on carrier mobility in graphene nanoribbons

M. Poljak; T. Suligoj; K. L. Wang

doi:10.1063/1.4817077

Influence of substrate type and quality on carrier mobility in graphene nanoribbons

M. Poljak, T. Suligoj, K. L. Wang

College of Electrical Engineering and Computer Science

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

21 Citations (Scopus)

Abstract

We report the results of a thorough numerical study on carrier mobility in graphene nanoribbons (GNRs) with the widths from ∼250 nm down to ∼1 nm, with a focus on the influence of substrate type (SiO₂, Al ₂O₃, HfO₂, and h-BN) and substrate quality (different interface impurity densities) on GNR mobility. We identify the interplay between the contributions of Coulomb and surface optical phonon scattering as the crucial factor that determines the optimum substrate in terms of carrier mobility. In the case of high impurity density (∼10¹³ cm^-2), we find that HfO₂ is the optimum substrate irrespective of GNR width. In contrast, for low impurity density (10 ¹⁰ cm^-2), h-BN offers the greatest enhancement, except for nanoribbons wider than ∼200 nm for which the mobility is highest on HfO₂.

Original language	English
Article number	053701
Journal	Journal of Applied Physics
Volume	114
Issue number	5
DOIs	https://doi.org/10.1063/1.4817077
Publication status	Published - 2013 Aug 7

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1063/1.4817077

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title = "Influence of substrate type and quality on carrier mobility in graphene nanoribbons",

abstract = "We report the results of a thorough numerical study on carrier mobility in graphene nanoribbons (GNRs) with the widths from ∼250 nm down to ∼1 nm, with a focus on the influence of substrate type (SiO2, Al 2O3, HfO2, and h-BN) and substrate quality (different interface impurity densities) on GNR mobility. We identify the interplay between the contributions of Coulomb and surface optical phonon scattering as the crucial factor that determines the optimum substrate in terms of carrier mobility. In the case of high impurity density (∼1013 cm-2), we find that HfO2 is the optimum substrate irrespective of GNR width. In contrast, for low impurity density (10 10 cm-2), h-BN offers the greatest enhancement, except for nanoribbons wider than ∼200 nm for which the mobility is highest on HfO2.",

author = "M. Poljak and T. Suligoj and Wang, {K. L.}",

note = "Funding Information: M. P. and T. S. acknowledge partial financial support from the Ministry of Science, Education and Sport of the Republic of Croatia, under Contract No. 036-0361566-1567. K. L. W. acknowledges financial support from the MARCO Focus Center on Functional Engineered Nano Architectonics (FENA).",

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AU - Poljak, M.

AU - Suligoj, T.

AU - Wang, K. L.

N1 - Funding Information: M. P. and T. S. acknowledge partial financial support from the Ministry of Science, Education and Sport of the Republic of Croatia, under Contract No. 036-0361566-1567. K. L. W. acknowledges financial support from the MARCO Focus Center on Functional Engineered Nano Architectonics (FENA).

PY - 2013/8/7

Y1 - 2013/8/7

N2 - We report the results of a thorough numerical study on carrier mobility in graphene nanoribbons (GNRs) with the widths from ∼250 nm down to ∼1 nm, with a focus on the influence of substrate type (SiO2, Al 2O3, HfO2, and h-BN) and substrate quality (different interface impurity densities) on GNR mobility. We identify the interplay between the contributions of Coulomb and surface optical phonon scattering as the crucial factor that determines the optimum substrate in terms of carrier mobility. In the case of high impurity density (∼1013 cm-2), we find that HfO2 is the optimum substrate irrespective of GNR width. In contrast, for low impurity density (10 10 cm-2), h-BN offers the greatest enhancement, except for nanoribbons wider than ∼200 nm for which the mobility is highest on HfO2.

AB - We report the results of a thorough numerical study on carrier mobility in graphene nanoribbons (GNRs) with the widths from ∼250 nm down to ∼1 nm, with a focus on the influence of substrate type (SiO2, Al 2O3, HfO2, and h-BN) and substrate quality (different interface impurity densities) on GNR mobility. We identify the interplay between the contributions of Coulomb and surface optical phonon scattering as the crucial factor that determines the optimum substrate in terms of carrier mobility. In the case of high impurity density (∼1013 cm-2), we find that HfO2 is the optimum substrate irrespective of GNR width. In contrast, for low impurity density (10 10 cm-2), h-BN offers the greatest enhancement, except for nanoribbons wider than ∼200 nm for which the mobility is highest on HfO2.

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Influence of substrate type and quality on carrier mobility in graphene nanoribbons

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