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Abstract
In spirit of extended-Hückel approximations, we have developed a nonorthogonal tight-binding total energy model for hydrocarbons with only a few adjustable parameters. Our model reproduces the geometry structures, binding energies, on-site charge transfer and vibrational frequencies of a variety of hydrocarbon molecules reasonably well. Comparative calculations on carbon fullerenes and nanotubes using tight-binding model and density functional theory demonstrate the potential of applying this model to large scale simulations of carbon nanostructures.
Acknowledgements
We acknowledge supports from the Office of Naval Research (USA) under Grant N00014-01-1-0802, the Department of Energy (USA) under Grant DEFG0397SF21388, the NCET Program provided by the Ministry of Education of China, the National Natural Science Foundation of China (50402025, 50234020, 10472022).