References
- Zhou , Z. , Steigerwald , M. , Hybertsen , M. , Brus , L. and Friesner , R. A. 2004 . Electronic structure of tubular aromatic molecules derived from the metallic (5,5) Armchair single wall carbon nanotube . J. Am. Chem. Soc. , 126 ( 11 ) : 3597 – 3607 . (and the literature cited therein)
- Srivastava , D. , Menon , M. and Cho , K. 2001 . Computational nanotechnology with carbon nanotubes and fullerenes . Compu. Sci. Eng. , : 42 – 55 . (and the literature cited therein)
- Arellano , J. S. , Molina , L. M. , Rubio , A. , Lopez , M. J. and Alonso , J. A. 2002 . Interaction of molecular and atomic hydrogen with (5,5) and (6,6) single-wall carbon nanotubes . J. Chem. Phys. , 117 ( 5 ) : 2281 – 2288 .
- Srivastava , D. and Barnard , S. Molecular dynamics simulation of large scale carbon nanotubes on a shared memory architecture . Proc. IEEE Supercomputing ‘97 . Los Alamitos, California. IEEE Computer Soc. Press .
- Yakobson , B. I. , Brabec , C. J. and Bernholc , J. 1996 . Nanomechanics of carbon tubes: instabilities beyond linear response . Phys. Rev. Lett. , 76 : 2511
- Srivastava , D. , Menon , M. and Cho , K. 1999 . Nanoplasticity of single‐wall carbon nanotubes under uniaxial compression . Phys. Rev. Lett. , 83 : 2973
- Yakobson , B. I. and Avouris , P. 2001 . “ Mechanical properties of carbon nanotubes ” . In Carbon Nanotubes 293 Berlin : Springer‐Verlag .
- Lourie , O. , Cox , D. M. and Wagner , H. D. 1998 . Buckling and collapse of embedded carbon nanotubes . Phys. Rev. Lett. , 81 : 1638
- Dresselhaus , M. S. , Dresselhaus , G. and Eklund , P. C. 1996 . Science of Fullerenes and Carbon Nanotubes New York : Academic Press .
- Avouris , P. 2002 . Acc. Chem. Res. , 35 : 1026 – 1034 .
- Dresselhaus , M. S. , Dresselhaus , G. and Avouris , Ph. 2001 . “ Molecular electronics with carbon nanotubes ” . In Carbon Nanotubes: Synthesis, Structure Properties and Applications Vol. 80 , Berlin, Heidelberg : Topics in Applied Physics: Springer-Verlag .
- Durrani , M. 2000 . Special issue on carbon nanotubes . Phys. World , 13 ( 6 ) (Cross ref.)
- Collins , P. G. and Avouris , Ph. 2000 . Nanotubes for electronics . Sci. Am. , 283 : 38 – 45 .
- Dresselhaus , M. S. , Dresselhaus , G. and Saito , R. 1992 . Carbon fibers based on C60 and their symmetry . Symmetry Phys. Rev. B , 45 : 6234 – 6242 .
- Mintmire , J. W. , Dunlap , B. I. and White , C. T. 1992 . Are fullerene tubules metallic . Phys. Rev. Lett. , 68 : 631 – 634 .
- Barnett , R. , Demler , E. and Kaxiras , E. 2005 . Superconducting and charge-density wave instabilities in ultra small-radius carbon nanotubes . Solid State Comm. , 135 : 335 – 339 .
- Hansen , P. J. and Jurs , P. 1988 . Chemical applications of graph theory. Part I. Fundamentals and topological indices . J. Chem. Edu. , 65 : 574 – 580 . (and the literature cited therein)
- Hosoya , H. 1971 . Topological index. A newly proposed quantity characterizing the topological nature of structural isomers of saturated hydrocarbons . Bull. Chem. Soc. Jpn. , 44 : 2332 – 2339 .
- Randić , M. 1998 . On characterization of molecular attributes . Acta Chim. Slov. , 45 : 239 – 252 .
- Rücker , G. and Rücker , C. 1999 . On the topological indices, boiling points, and cycloalkanes . J. Chem. Inf. Cmput. Sci. , 39 : 788 – 802 .
- Wiener , H. 1947 . Structural determination of paraffin boiling points . J. Am. Chem. Soc. , 69 ( 1 ) : 17 – 20 .
- Du , Y. P. , Liang , Y. Z. , Li , B. Y. and Xu , C. J. 2002 . Orthogonalization of block variables subspace—projection for quantitative structure property relationship (QSPR) data . J. Chem. Info. Comput. Sci. , 42 : 1128 – 1138 .
- Randić , M. 1975 . J. Am. Chem. Soc. , 97 : 6609 – 6615 .
- Taherpour , A. A. 2005 . Aust. J. Ed. Chem. , 65 : 37
- Taherpour , A. A. 2nd International Conf. Chem. Edu. and Sustainable Development . November , Moscow, Russia. A Simple Method for Determining the Number of Rings in Polycyclic Compounds , pp. 16 – 18 . Proc. P. 103.