Title :
Structure and vibrational spectra of cluster ions over rubidium iodide by computational chemistry
Author :
Costa, Rene ; Pogrebnaya, Tatiana ; Pogrebnoi, Alexander
Author_Institution :
Dept. of Mater. Sci. & Eng., Nelson Mandela African Instn. of Sci. & Technol., Arusha, Tanzania
Abstract :
The properties of Rb2I+, RbI2-, Rb3I2+ and Rb2I3- ions were studied using two quantum chemical methods, DFT and Møller-Plesset perturbation theory of the 2nd order. The effective core potential with Def2-QZVP basis set for rubidium atom and SDB-aug-cc-pVTZ basis set for iodine atom were used. According to the results, the equilibrium geometric structure of the triatomic ions was found to be linear of D∞h symmetry. For the pentaatomic ions, the three isomeric forms were found: the linear (D∞h), the kite-shaped (C2v), and the bipyramidal (D3h), both for the positive and negative ions. For all species, the equilibrium geometric parameters and vibrational spectra have been determined.
Keywords :
atomic clusters; density functional theory; isomerism; negative ions; perturbation theory; positive ions; quantum theory; rubidium compounds; vibrational states; 2nd order Møller-Plesset perturbation theory; DFT; Rb2I3-; Rb2I+; Rb3I+; RbI; RbI2-; bipyramidal isomeric form; cluster ion structure; cluster ion vibrational spectra; computational chemistry; effective core potential; equilibrium geometric parameter; iodine atom SDB-aug-cc-pVTZ basis set; kite-shaped isomeric form; linear equilibrium geometric structure; linear isomeric form; molecular symmetry; negative ion; pentaatomic ion; positive ion; quantum chemical method; rubidium atom Def2-QZVP basis set; rubidium iodide ion properties; triatomic ion equilibrium geometric structure; Artificial intelligence; Atomic clocks; Discrete Fourier transforms; Ions; geometric structure; positive and negative cluster ions; quantum chemical computation; rubidium iodide; vibrational spectra;
Conference_Titel :
Science, Computing and Telecommunications (PACT), 2014 Pan African Conference on
DOI :
10.1109/SCAT.2014.7055136
