Controlling
energy gap of bilayer graphene by strain |
S.-M. Choi,
S.-H. Jhi and Y.-W. Son arXiv.org:1002.4685 (2010) |
Minimal
single-particle Hamiltonian for charge carriers in epitaxial graphene |
S. Kim et al, arXiv.org:0912.1210 (2010) |
Patially open
zigzag carbon nanotubes superlattices |
B. Huang et al, arXiv.org:0911.5454 (2010) |
Controlling
half-metallicity of graphene nanoribbons by using a ferroelectric
polymer |
Y.-L. Lee et al, ACS Nano 4, 1345 (2010) (2010) |
Effects of
strain on electronic properties of graphene |
S.-M. Choi,
S.-H. Jhi and Y.-W. Son Phys. Rev. B Rapid Com. 81, 081407 (2010)[arXiv] |
Electronic and
magnetic properties of partially-open carbon nanotubes |
B. Huang et al, J. Am. Chem. Soc. 131, 17919 (2009)[arXiv] |
First-principles
study on the atomic and the electronic structures of unreconstructed
6H-SiC{0001} surfaces and epitaxial graphene |
S. Kim, J. Ihm
and Y.-W. Son J. Korean Phys. Soc. 55, 341 (2009) |
Interference
effect on Raman spectrum of graphene on SiO2/Si |
D. Yoon et al, Phys. Rev. B 80, 125422 (2009)[arXiv] |
Landau levels
and quantum Hall effect in graphene superlattices |
C.-H. Park et al, Phys. Rev. Lett. 103, 046808 (2009)[arXiv] |
Molecular-scale
quantum dots from carbon nanotube heterojunctions |
B. Chandra et al, Nano Letters 9, 1544 (2009) |
Strong polarization dependence of double resonant Raman intensities in graphene | D. Yoon et al, Nano Letters 8, 4270 (2008) |
New generation of massless Dirac fermions in graphene under external periodic potential | C.-H. Park et al. Phys. Rev. Lett. 101, 126804 (2008)[arXiv] |
Electron beam supercollimation
in graphene superlattices
|
C.-H. Park et
al. Nano Letters 8, 2920 (2008)[arXiv] |
Negative differential resistance in carbon atomic wire - carbon nanotube junctions | K. H. Khoo et
al. Nano Letters 8, 2900 (2008) |
Origins of
anomalous electronic structures of epitaxial graphene on silicon
carbides |
S. Kim et al.
Phys. Rev. Lett. 100, 176802 (2008)[arXiv] |
Anisotropic
behaviours of massless Dirac fermions in graphene under peiodic
potentials |
C.-H. Park et al. Nature Physics 4, 213 (2008)[arXiv] |
Quasiparticle
energies and band gaps in graphene nanoribbons |
L. Yang et al. Phys. Rev. Lett. 99, 186801 (2007)[arXiv] |
Electric field
effects on spin transport in defective metallic carbon nanotube |
Y.-W. Son et al. Nano Letters 7, 3518 (2007) |
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