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Mahdi Rezaei Sameti

Mahdi Rezaei Sameti

Academic rank: Associate Professor
ORCID:
Education: PhD.
ScopusId:
HIndex:
Faculty: science
Address: Department of applied chemistry,Faculty science, Malayer University, Malayer, Iran
Phone: 32355404

Research

Title
A computational study on the interaction between O2 and pristine and Ge-doped aluminum phosphide nanotubes
Type
JournalPaper
Keywords
O2 interaction, DFT, Ge-doped, HOMO/LUMO orbital, NQR, AlPNTs
Year
2015
Journal turkish journal of physics
DOI
Researchers Mahdi Rezaei Sameti

Abstract

Abstract: In this research the interaction between oxygen molecules and the outside and inside surfaces of pristine and Ge-doped (4,4) armchair and (6,0) zigzag models of aluminum phosphide nanotubes (AlPNTs) was systematically inves- tigated using density function theory. Structural parameters, adsorption energy, quantum parameters, HOMO/LUMO orbitals, and nuclear quadrupole resonance (NQR) parameters were calculated for all models of AlPNTs. The aim of this work was to investigate the effects of Ge doping and O2 adsorption on the electrical and structural parameters of (4,4) armchair and (8,0) zigzag models of AlPNTs. The results revealed that adsorption energies for all models were negative with exothermic chemical bonding. By doping Ge in spite of the B52 site of (4,4) armchair and (6,0) zigzag models the adsorption energy increased signi cantly from pristine values and therefore Ge doping increased the reactivity of the nanotubes to O2 adsorption. The NQR results showed that in AlPNTs Al atoms at the edges of nanotubes played a signi cant role in determining the electronic behaviors of AlPNTs and the average values of CQ ( 27 Al) and Q for the O2 attached on (4,4) armchair and (6,0) zigzag AlPNTs were higher than those of the pristine model. Analysis of the electronic properties indicated that adsorption of O2 reduced the energy gap of AlPNTs. Quantum molecular results showed that the global hardness () of Ge-doped models was smaller than that of other models.