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Large Amplitude Torsions in Nitrotoluene Isomers Studied by Rotational Spectroscopy and Quantum Chemistry Calculations

Anthony Roucou, Manuel Goubet, Isabelle Kleiner, Sabath Bteich, Arnaud Cuisset

2020ChemPhysChem23 citationsDOIOpen Access PDF

Abstract

Abstract Rotational spectra of ortho‐nitrotoluene (2‐NT) and para‐nitrotoluene (4‐NT) have been recorded at low and room temperatures using a supersonic jet Fourier Transform microwave (MW) spectrometer and a millimeter‐wave frequency multiplier chain, respectively. Supported by quantum chemistry calculations, the spectral analysis of pure rotation lines in the vibrational ground state has allowed to characterise the rotational energy, the hyperfine structure due to the 14 N nucleus and the internal rotation splittings arising from the methyl group. For 2‐NT, an anisotropic internal rotation of coupled −CH 3 and −NO 2 torsional motions was identified by quantum chemistry calculations and discussed from the results of the MW analysis. The study of the internal rotation splittings in the spectra of three NT isomers allowed to characterise the internal rotation potentials of the methyl group and to compare them with other mono‐substituted toluene derivatives in order to study the isomeric influence on the internal rotation barrier.

Topics & Concepts

ChemistryRotational spectroscopyQuantum chemistrySpectral lineInternal rotationSpectroscopyIsotopologueMethyl groupComputational chemistryAtomic physicsPhysical chemistryAnalytical Chemistry (journal)Molecular physicsMoleculePhysicsOrganic chemistryMechanical engineeringAstronomyElectrodeQuantum mechanicsAlkylEngineeringElectrochemistryMolecular Spectroscopy and StructureAdvanced Chemical Physics StudiesAtmospheric Ozone and Climate
Large Amplitude Torsions in Nitrotoluene Isomers Studied by Rotational Spectroscopy and Quantum Chemistry Calculations | Litcius