4.5 Article

A combined experimental and computational thermodynamic study of fluoronitrophenol isomers

Journal

JOURNAL OF CHEMICAL THERMODYNAMICS
Volume 178, Issue -, Pages -

Publisher

ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jct.2022.106954

Keywords

Energy of combustion; Enthalpy of sublimation; Enthalpy of formation; Vapour pressure; Fluoronitrophenol; G3(MP2); B3LYP

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Combustion energies of four isomers of fluoro- and nitro-phenols were measured using a rotating-bomb combustion calorimeter. The standard molar combustion enthalpies, formation enthalpies, sublimation enthalpies, and Gibbs energies were determined. Computational methodology and group additivity scheme were used for estimation of formation enthalpies and O-H bond dissociation enthalpies.
Combustion energies of the 5-fluoro-2-nitrophenol, 4-fluoro-2-nitrophenol, 3-fluoro-4-nitrophenol and 2-fluoro-4-nitrophenol isomers were obtained by means of a rotating-bomb combustion calorimeter. From these de-terminations, standard molar combustion enthalpies and standard molar formation enthalpies, at T = 298.15 K, in the crystalline state, were derived. The Knudsen mass-loss effusion technique was used to determine the standard molar enthalpies, entropies and Gibbs energies of sublimation, at T = 298.15 K, of the studied com-pounds. The standard molar enthalpies of sublimation of the four isomers were also measured by Calvet microcalorimetry. The gas-phase standard molar enthalpies of formation were derived from the experimental measurements, at T = 298.15 K, for the fluoronitrophenols studied.Additionally, the standard molar enthalpies of formation were estimated by means of computational meth-odology at the G3(MP2)//B3LYP level. The estimated values are in very good agreement with experimental data, giving us support to estimate the gas-phase enthalpies of formation of the remaining isomers whose values have not been determined experimentally.A simple group additivity scheme was successfully applied for prediction of molar enthalpies of formation. The computational study was also extended to the determination of O-H bond dissociation enthalpies for all the isomers.

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