Electronic States and Transport Properties of Carbon Crystalline: Graphene, Nanotube, and Graphite
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Elsevier
Reference94 articles.
1. A self-consistent theory for graphene transport;Adam;Proceedings of the National Academy of Sciences of the United States of America,2007
2. Theory of electronic states and transport in carbon nanotubes;Ando;Journal of the Physical Society of Japan,2005
3. Dynamical conductivity and zero-mode anomaly in honeycomb lattices;Ando;Journal of the Physical Society of Japan,2002
4. Band structure and optical properties of graphite and of the layer compounds GaS and GaSe;Bassani;Nuovo Cimento B,1967
5. Electronic confinement and coherence in patterned epitaxial graphene;Berger;Science,2006
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