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1 article(s) from Fujisaki, Takaya

Electron transport through nanoscale multilayer graphene and hexagonal boron nitride junctions

Aleksandar Staykov and
Takaya Fujisaki

Beilstein J. Nanotechnol. 2025, 16, 2132–2143, doi:10.3762/bjnano.16.147

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Figure 1: Modeling of graphite and h-BN. (a) Unit cell of graphite, (b) DOS of graphite, (c) band structure o...

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Figure 2: Modeling of graphite and h-BN with Stone–Wales defect. (a) Unit cell of defective graphite, (b) DOS...

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Figure 3: Modeling of N-doped graphite. (a) Unit cell of N-doped graphite, (b) band structure of N-doped grap...

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Figure 4: Geometry of Pt/graphene/Pt junctions with (a) one layer, (b) two layers, (c) three layers, (d) four...

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Figure 5: Geometry of Pt/h-BN/Pt junctions with (a) one layer, (b) two layers, (c) three layers, (d) four lay...

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Figure 6: Geometry of Pt/graphene with Stone–Wales defect/Pt junctions with (a) two layers, (b) four layers, ...

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Figure 7: Transmission spectra of (a) Pt/graphene/Pt and (b) Pt/graphene with Stone–Wales defect/Pt junctions...

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Figure 8: Geometry of Pt/h-BN with Stone–Wales defect/Pt junctions with (a) two layers, (b) four layers, and ...

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Figure 9: Geometry of Pt/graphene with N-doping/Pt junctions with (a) two layers, (b) four layers, and (c) si...

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Published 24 Nov 2025

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