Cohesive Energies Computation of BCC and FCC Crystals Using Density Functional Theory

Authors

  • Abubakar Nasiru Department of science laboratory technology, Federal Polytechnic Bauchi
  • Ndawashi Mustapha Department of Science Laboratory Technology, Federal Polytechnic Bauchi, Federal Polytechnic Bauchi
  • Abubakar Muhammad Bello Department of Science Laboratory Technology, Federal Polytechnic Bauchi, Federal Polytechnic Bauchi
  • Hussaini S. Maryam Department of Physics, Air force Institute of Technology Kaduna
  • Nafiu Muhammad Wada Federal Polytechnic Bauchi

Keywords:

Keywords: Cohesive Energy, Crystals, Density Approximation, Atomic Spacing and Convergence.

Abstract

The cohesive energies of BCC (Li, Cr, Fe, Mo), and FCC (LiCl, NaCl, RbBr, KI) solid crystals lattices have been calculated using density functional theory (DFT). DFT based Fritz Haber Institute-ab Initio molecular simulation (FHI-aims) computer code has several input parameters in which some of the variables were optimized. The cohesive energies of all the elements and compounds under study were calculated within Perdew Wang local density approximation (LDA) of DFT, all the results are in reasonable agreement with experimental measurements. The measurement of cohesive energy should give an idea about lattice interatomic spacing which in turn gives the stability of the crystal.

Author Biographies

  • Ndawashi Mustapha, Department of Science Laboratory Technology, Federal Polytechnic Bauchi, Federal Polytechnic Bauchi

     

     

     

     

  • Abubakar Muhammad Bello, Department of Science Laboratory Technology, Federal Polytechnic Bauchi, Federal Polytechnic Bauchi

     

     

  • Hussaini S. Maryam, Department of Physics, Air force Institute of Technology Kaduna

     

     

     

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Published

2020-06-30

Issue

Vol. 2 No. 1

Section

Research Article

How to Cite

Nasiru, A. ., Mustapha, N. ., Muhammad Bello, A. ., S. Maryam, H., & Wada, N. M. (2020). Cohesive Energies Computation of BCC and FCC Crystals Using Density Functional Theory. International Journal of Biological, Physical and Chemical Studies , 2(1), 29-38. https://al-kindipublishers.org/index.php/ijbpcs/article/view/416