User menu

Electronic properties of carbon nanotubes with polygonized cross sections

Bibliographic reference Charlier, Jean-Christophe ; Lambin, Philippe ; Ebbesen, TW. Electronic properties of carbon nanotubes with polygonized cross sections. In: Physical Review. B, Condensed Matter, Vol. 54, no. 12, p. R8377-R8380 (1996)
Permanent URL
  1. Ebbesen T.W., Takada T., Topological and SP3 defect structures in nanotubes, 10.1016/0008-6223(95)00025-9
  2. Kosaka Mayumi, Ebbesen Thomas W., Hiura Hidefumi, Tanigaki Katsumi, Annealing effect on carbon nanotubes. An ESR study, 10.1016/0009-2614(94)01416-s
  3. Liu Mingqi, Cowley John M., Structures of the helical carbon nanotubes, 10.1016/0008-6223(94)90159-7
  4. Liu Mingqi, Cowley John M., Structures of carbon nanotubes studied by HRTEM and nanodiffraction, 10.1016/0304-3991(94)90046-9
  5. S. Seraphin, Acta Microscópica, 3, 45 (1994)
  6. Hiura H., Ebbesen T. W., Fujita J., Tanigaki K., Takada T., Role of sp3 defect structures in graphite and carbon nanotubes, 10.1038/367148a0
  7. Mintmire J. W., Dunlap B. I., White C. T., Are fullerene tubules metallic?, 10.1103/physrevlett.68.631
  8. Saito Riichiro, Fujita Mitsutaka, Dresselhaus G., Dresselhaus M. S., Electronic structure of graphene tubules based onC60, 10.1103/physrevb.46.1804
  9. Hamada Noriaki, Sawada Shin-ichi, Oshiyama Atsushi, New one-dimensional conductors: Graphitic microtubules, 10.1103/physrevlett.68.1579
  10. Saito R., Fujita M., Dresselhaus G., Dresselhaus M. S, Electronic structure of chiral graphene tubules, 10.1063/1.107080
  11. Blase X., Benedict Lorin X., Shirley Eric L., Louie Steven G., Hybridization effects and metallicity in small radius carbon nanotubes, 10.1103/physrevlett.72.1878
  12. Ebbesen T.W., Hiura H., Fujita J., Ochiai Y., Matsui S., Tanigaki K., Patterns in the bulk growth of carbon nanotubes, 10.1016/0009-2614(93)87206-i
  13. Charlier J.-C, Gonze X, Michenaud J.-P, First-Principles Study of Carbon Nanotube Solid-State Packings, 10.1209/0295-5075/29/1/008
  14. Tersoff J., Ruoff R. S., Structural Properties of a Carbon-Nanotube Crystal, 10.1103/physrevlett.73.676
  15. Ruoff Rodney S., Tersoff J., Lorents Donald C., Subramoney Shekhar, Chan Bryan, Radial deformation of carbon nanotubes by van der Waals forces, 10.1038/364514a0
  16. Perdew J. P., Zunger Alex, Self-interaction correction to density-functional approximations for many-electron systems, 10.1103/physrevb.23.5048
  17. Slater J. C., Koster G. F., Simplified LCAO Method for the Periodic Potential Problem, 10.1103/physrev.94.1498
  18. Troullier N., Martins JoséLuís, A straightforward method for generating soft transferable pseudopotentials, 10.1016/0038-1098(90)90686-6
  19. H. Hellmann, Einfuhrung in die Quantumohemie (1937)
  20. Feynman R. P., Forces in Molecules, 10.1103/physrev.56.340
  21. Tománek David, Louie Steven G., First-principles calculation of highly asymmetric structure in scanning-tunneling-microscopy images of graphite, 10.1103/physrevb.37.8327
  22. Langer L., Bayot V., Grivei E., Issi J.-P., Heremans J. P., Olk C. H., Stockman L., Van Haesendonck C., Bruynseraede Y., Quantum Transport in a Multiwalled Carbon Nanotube, 10.1103/physrevlett.76.479