High-resolution infrared and theoretical study of four fundamental bands of gaseous 1,3,4-oxadiazole between 800 and 1600 cm |
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Authors: | F. Hegelund R. Wugt Larsen R.A. Aitken K.M. Aitken M.H. Palmer |
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Affiliation: | aDepartment of Chemistry, University of Aarhus, DK-8000 Aarhus C, Denmark;bInstitut für Physikalische Chemie, Universität Göttingen, Tammanstr. 6, D-37077 Göttingen, Germany;cSchool of Chemistry, University of St. Andrews, North Haugh, Fife, KY16 9ST Scotland, UK;dSchool of Chemistry, The University of Edinburgh, West Mains Road, Edinburgh, EH9 3JJ Scotland, UK |
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Abstract: | The Fourier transform infrared spectrum of gaseous 1,3,4-oxadiazole, C2H2N2O, has been recorded in the 800–1600 cm−1 wavenumber region with a resolution around 0.0030 cm−1. The four fundamental bands ν9(B1; 852.5 cm−1), ν14(B2; 1078.5 cm−1), ν4(A1; 1092.6 cm−1), and ν2(A1; 1534.9 cm−1) are analyzed by the standard Watson model. Ground state rotational and quartic centrifugal distortion constants are obtained from a simultaneous fit of ground state combination differences from three of these bands and previous microwave transitions. Upper state spectroscopic constants are obtained for all four bands from single band fits using the Watson model. The ν4 and ν14 bands form a c-Coriolis interacting dyad, and the two bands are analyzed simultaneously by a model including first and second order Coriolis resonance using the ab initio predicted Coriolis coupling constant . An extended local resonance in ν2 is explained as higher order b-Coriolis type resonance with ν6 + ν10, which is further perturbed globally by the ν15 + ν10 level. A fit of selected low-J transitions to a triad model including ν2(A1), ν6 + ν10(B1), and ν15 + ν10(A2) using an ab initio calculated Coriolis coupling constant is performed.The rotational constants, ground state quartic centrifugal distortion constants, anharmonic frequencies, and vibration–rotational constants (α-constants) predicted by quantum chemical calculations using a cc-pVTZ and TZ2P basis with B3LYP methodology, are compared with the present experimental data, where there is generally good agreement. A complete set of anharmonic frequencies and α-constants for all fundamental levels of the molecule is given. |
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Keywords: | 1,3,4-Oxadiazole Infrared spectrum Rotational constants Vibrational frequencies Vibration– rotational constants Anharmonic frequencies DFT study |
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