Theoretical Study as Nano Structure for Nitrogen Phenanthrene Molecules (crystal) Group: by B3YP-DFT

Authors

  • Maan Ab.Saleh Almamory Physics Department - College of Science - Babylon University- Iraq Author
  • Oday H. AL-Bodairy Physics Department - College of Science - Babylon University- Iraq Author
  • Nihad Abdulameer Salih Physics Department - College of Science - Babylon University- Iraq Author
  • Ishraq Abdul Amir Saleh Department of Biology, Science for Women, University of Babylon- Iraq Author
  • Alyaa . H . A Physics Department - College of Science - Babylon University- Iraq Author
  • Hakiema Salman Jabour Physics Department - College of Science - Babylon University- Iraq Author

Keywords:

DFT, energy gap, ionization potential, hardness and IR- spectrum.

Abstract

In this work, five molecules are optimized at B3YP/6-31G** density functional theory (DFT). Phenanthrene molecule was a reference. The electronic properties nano structure of Nitrogen Phenanthrene molecules group were investigated depending; include the bond molecules , nano structure for crystal, total energy, electronic states, electron affinity, chemical hardness, softness and electrophlicity index.Adding the fluorine atoms to the original ring (Phenanthrene molecule) leads to decrease the energy gap and the hardness of the molecule. The results show that these molecules are more effective with small energy gap compared with Phenanthrene molecule. This may indicates that these structures represent new electronic materials. The vibrational frequencies of Nitrogen Phenanthrene molecules group supplies new data.

References

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Published

2014-02-28

Issue

Vol. 4 No. 1 (2014)

Section

Articles

How to Cite

Theoretical Study as Nano Structure for Nitrogen Phenanthrene Molecules (crystal) Group: by B3YP-DFT. (2014). International Journal of Current Engineering and Technology, 4(1), 308-311. https://ijcet.evegenis.org/index.php/ijcet/article/view/493