https://doi.org/10.1140/epjd/e2013-30660-2
Regular Article
First principles gas phase study of the structures, energetics and spectroscopic parameters of aluminium antimonide, AlxSby (x + y = 3,5), clusters1
1 Computational Chemistry Group,
Faculty of Science, Department of Chemistry, University of Mauritius,
Mauritius
2 Department of Chemistry, Faculty of
Science, Universiti Teknologi Malaysia, Johor,
Malaysia
3 Department of Chemistry, University
of Namibia, Namibia
a
e-mail: ramchemi@intnet.mu
Received:
29
October
2012
Received in final form:
24
April
2013
Published online:
6
August
2013
Theoretical methods (DFT/B3LYP and MP2) have been used to optimize the geometries of the AlxSby (x + y = 3,5) clusters and their anions. Single point energy computations at CCSD(T) level have also been performed using the optimized B3LYP and MP2 structures. The basis sets used for Al and Sb atoms are 6-311+G(2d) and LANL2DZdp ECP, respectively. Harmonic vibrational frequency computations were carried out to confirm the nature of the stationary points. We report the structural and spectroscopic parameters of the named clusters. We also report the relative energy of the clusters, the vertical electron detachment energy, the adiabatic electron detachment energy and the adiabatic electron affinity. The most stable structures at the CCSD(T)//MP2 level are, the D∞h linear structure (AlSb2) and the C2vV-bent structure (AlSb), the C2vV-bent structure (Al2Sb and its anion), the C2v edge-capped tetrahedron (Al2Sb3 and its anion), the C2v trigonal bipyramidal structure (Al3Sb2 and its anion), the C4v square pyramidal (AlSb4) and a C2v ground structure for its anion, the C2v planar trapezoidal structure (Al4Sb) and the C2v edge-capped tetrahedron (Al4Sb−). The adiabatic electron affinities calculated at the CCSD(T)//MP2 level are 2.17 eV (AlSb2), 2.17 eV (Al2Sb), 2.38 eV (Al2Sb3), 2.76 eV (Al3Sb2), 2.21 eV (AlSb4) and 2.03 eV (Al4Sb). The findings of this research are analysed, discussed and compared with the analogous picnogenides clusters.
Key words: Clusters and Nanostructures
Supplementary material in the form of one pdf file available from the Journal web page at http://dx.doi.org/10.1140/epjd/e2013-30660-2
© EDP Sciences, Società Italiana di Fisica and Springer-Verlag 2013