Title of article
IR and UV Spectroscopic Analysis of C20 Carbon Nanostructures
Author/Authors
Zamani, Mehdi Department of Chemistry - Isfahan University of Technology, Isfahan , Motahari, Ahmad Faculty of Chemistry - University of Mazandaran , Dabbagh, Hossein A Department of Chemistry - Isfahan University of Technology, Isfahan , Farrokhpour, Hossein Department of Chemistry - Isfahan University of Technology, Isfahan
Pages
10
From page
31
To page
40
Abstract
Infrared (IR) and ultraviolet (UV) spectroscopic analysis of eight structural isomers of C20 carbon nanostructures, i.e.
ring, tadpole, bow-tie, dumb-bell, spiro, propellane, bowl and cage, were performed at different levels of theory
including semi-empirical (AM1 and PM3), Hartree-Fock (HF/6-31++G, 6-31++G**) and density functional theory
(B3LYP/6-31++G, 6-31++G**). A broad range of IR spectra (400-2700 cm-1) is covered by C-C bending vibrations (low
frequency region) and C-C stretching vibrations (high frequency region) in almost all isomers. The absorption
maximum (λmax) in UV spectra for bowl and cage isomers appears below 300 nm and for cyclic isomers above it. These
results show that IR and UV spectra are useful tools for identification of C20 structural isomers.
Keywords
C20 Isomers , Fullerenes , Infrared , UV spectra
Journal title
Astroparticle Physics
Serial Year
2014
Record number
2437806
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