Internal rotation and equilibrium structure of 2-chloro-3-nitrothiophene from gas electron diffraction and quantum chemistry

The equilibrium structure of the 2-chloro-3-nitrothiophene molecule and the internal rotation of the nitro group have been studied in gas phase using electron diffraction data and quantum chemical calculations in the framework of the large-amplitude motion model for internal rotation. Quantum chemic...

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Bibliographic Details
Published in:Journal of molecular structure 2015-11, Vol.1100, p.311-317
Main Authors: Kovtun, Dmitry M., Kochikov, Igor V., Tarasov, Yury I.
Format: Article
Language:English
Subjects:
2-Chloro-3-nitrothiophene
Electron diffraction
Equilibrium molecular structure
Internal rotation
LAM
Quantum chemistry
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Summary:The equilibrium structure of the 2-chloro-3-nitrothiophene molecule and the internal rotation of the nitro group have been studied in gas phase using electron diffraction data and quantum chemical calculations in the framework of the large-amplitude motion model for internal rotation. Quantum chemical calculations at the MP2 and B3LYP levels of theory with various Pople and Dunning basis sets predict the planar minimum energy molecular conformation, with the internal rotation barrier height in the interval 1140–1560 cm−1. The experimental GED data are consistent with the dynamic model governed by the twofold cosine potential energy function with the barrier height in the range from 600 to 1400 cm−1. The main equilibrium structure parameters are as follows (values in parentheses correspond to 3 times standard deviations): re (NO) = 1.225/1.227(3) Å, re(C − C)/re(C − N) = 1.362/1.376/1.403/1.438(3) Å, re(C − Cl)/re (C − S) = 1.700/1.712/1.715(2) Å, ∠e C2SC5 = 92.2 (5)°, ∠e C3C2S = 110.8 (6)°, ∠e C4C5S = 111.3 (5)°, ∠e C3C4C5 = 113.0 (7)°, ∠e C2C3C4 = 112.7 (8)°, ∠e C3NO11 = 116.9(6)°, ∠eC3NO10 = 118.5 (6)°, ∠e SCCl = 118.6 (5)°, ∠e C4C3N = 121.8 (7)°, ∠e ONO = 124.6(6)°, ∠e C2C3N = 125.1 (6)°, ∠e C3C2Cl = 130.7 (6)°. Thermally averaged parameters are provided for comparison with the results of traditional studies. •The equilibrium structure of the 2-chloro-3-nitrothiophene molecule has been studied.•Gas phase electron diffraction data and quantum chemical results were used.•The large-amplitude motion model for internal rotation of nitro group was applied.•The geometry parameters are refined and internal rotation barrier is evaluated.•Thermally averaged geometry parameters are provided for comparison.
ISSN:0022-2860
1872-8014
DOI:10.1016/j.molstruc.2015.07.016