2 article(s) from Glukhova, Olga E
- Letter
- Published 30 Apr 2018
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Figure 1: Topological model of 2D CNT-graphene hybrid nanocomposite.
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Figure 2: A fragment of the 2D CNT–graphene hybrid nanocomposite and configuration of an incident electromagn...
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Figure 3: The optical conductivity of 2D CNT–graphene hybrid nanocomposites with an intertube distance of 13 ...
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Figure 4: The optical conductivity of 2D CNT–graphene hybrid nanocomposites with an intertube distance of 13 ...
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Figure 5: The absorption coefficient of 2D CNT–graphene hybrid nanocomposites with an intertube distance of 1...
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Figure 6: The absorption coefficient of 2D CNT-graphene hybrid nanocomposite with the same tube (18,0) and di...
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Figure 7: Absorption coefficient of a 2D CNT–graphene hybrid nanocomposite (tube (18,0), 13 hexagons intertub...
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- Full Research Paper
- Published 20 Apr 2018
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Figure 1: Graphene: a) unit cell with electrodes; b) transmission function (green: dk = 0.1 1/Å, blue: dk = 0...
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Figure 2: Transmission function: a) Т(Е) for three different ky; b) the distribution of points of the transmi...
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Figure 3: Graphene transmission function: a) a map of T(E) for the initial partitioning over ky (from above) ...
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Figure 4: Graphane transmission function: a) a map of T(E) for the initial partitioning over ky (top) and (bo...
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Figure 5: 2D composite of pillared graphene based on CNT (9,9) with a length of 2.4 nm: a) atomic structure; ...
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Figure 6: Two-layer 2D composite of pillared graphene based on CNT (9,9) with a length of 2.4 nm: a) atomic s...
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Figure 7: Plots of the transmission functions for two-layer (blue) and single-layer (red) composites (the tub...
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