[1] H. Min, J. E. Hill, N. A. Sinitsyn, B. R. Sahu, L. Kleinman, and A. H. MacDonald, Intrinsic and Rashba spin-orbit interactions in graphene sheets. Physical Review B, 74.16, (2006): 165310.
[2] K. Novoselov, S. Andre, K. Geim, Sergei V. Morozov, D. Jiang, Y. Zhang, Sergey V. Dubonos, Irina V. Grigorieva, and Alexandr A. Firsov, Electric field effect in atomically thin carbon films. Science 306. 5696, (2004): 666-669.
[3] P. Dietl, Numerical studies of electronic transport through Graphene nanoribbons with disorder. Karlsuhe Institute of Technology (2009).
[4] http://nobelprize.org/nobel_prizes/physics/laureates/ (2010).
[5] K. Wakabayashi, Y. Takane, M. Yamamoto, & M. Sigrist, Electronic transport properties of graphene nanoribbons. New Journal of Physics, 11(9), (2009): 095016.
[6] G. Grosso, and G. P. Parravicini, Solid State Physics ACADEMIC PRESS (2000).
[7] B. Gharekhanlou, and S. Khorasani, An overview of tight-binding method for two-dimensional carbon structures. Graphene: Properties, Synthesis and Application 1-37 (2011).
[9] RM. Martin, Electronic Structure: Basic Theory and Practice Methods, Cambridge University Press, (2004).
[10] W. Guangquan, Strongly Correlated phases in the anisotropic honeycomb lattice, Diss. (2012).
[11] S. Reich, J. Maultzsch, C. Thomsen, & P. Ordejon, Tight-binding description of graphene. Physical Review B, 66(3), (2002): 035412.
[12] M. Roy, and P. A. Maksym, Semiconducting carbon nanotube quantum dots: Calculation of the interacting electron states by exact diagonalisation. EPL(EurophysicsLetters), 86(3), (2009): 37001.
[13] V. P. Gusynin, S. G. Sharapov, and J. P. Carbotte, AC conductivity of graphene: from tight-binding model to 2+1-dimensional quantum electrodynamics. International Journal of Modern PhysicsB 21.27, (2007): 4611-4658.
[14] H. Bruus, F. Karsten, Many-body quantum theory in condensed matter physic, Published by Oxford GraduateTexts, (2004).
[15] N. A. Pike, and D. Stroud, Tight-binding model for adatoms on graphene: Analytical density of states, spectral function, and induced magnetic moment. Physical Review B, 89(11), (2014): 115428.