The microwave spectrum of 2-methylthiazole: 14N nuclear quadrupole coupling and methyl internal rotation

The microwave spectrum of 2-methylthiazole: 14N nuclear quadrupole coupling and methyl internal rotation

The rotational spectrum of 2-methylthiazole was recorded using two pulsed molecular jet Fourier transform microwave spectrometers operating in the frequency range of 2-40 GHz. Due to the internal rotation of the methyl group, all rotational transitions were split into A and E symmetry species lines,...

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Veröffentlicht in:The Journal of chemical physics 2020, Vol.152 (13)
Hauptverfasser: Nguyen, Thuy, Van, Vinh, Gutlé, Claudine, Stahl, Wolfgang, Schwell, Martin, Kleiner, Isabelle, Nguyen, Ha Vinh Lam
Format: Artikel
Sprache:eng
Schlagworte:
Chemical Sciences
or physical chemistry
Theoretical and
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Zusammenfassung:The rotational spectrum of 2-methylthiazole was recorded using two pulsed molecular jet Fourier transform microwave spectrometers operating in the frequency range of 2-40 GHz. Due to the internal rotation of the methyl group, all rotational transitions were split into A and E symmetry species lines, which were analyzed using the programs XIAM and BELGI-Cs-hyperfine, yielding a methyl torsional barrier of 34.79675(18) cm−1. This value was compared with that found in other monomethyl substituted aromatic five-membered rings. The 14N quadrupole coupling constants were accurately determined to be χaa = 0.5166(20) MHz, χbb − χcc = −5.2968(50) MHz, and χab = −2.297(10) MHz by fitting 531 hyperfine components. The experimental results were supplemented by quantum chemical calculations.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.5142857