Carolina Rio scite author profile

The standard (p°) 0.1 MPa) molar enthalpies of formation for 2-, 3-, and 4-phenylpyridine in the gas phase were derived from the standard molar enthalpies of combustion, in oxygen, at 298.15 K, measured by static bomb combustion calorimetry. The standard molar enthalpies of vaporization for 2-, 3-, and 4-phenylpyridine at T) 298.15 K were measured by correlation-gas chromatography. The enthalpy of sublimation of 4-phenylpyridine was obtained as a weighted mean of the value derived from the vaporization and fusion enthalpy values and the value measured directly by Calvet microcalorimetry. The following enthalpies of formation were then derived: 2-phenylpyridine, g) 228.3 (5.8 kJ‚mol-1 ; 3-phenylpyridine, g) 240.9 (5.5 kJ‚mol-1 ; 4-phenylpyridine, g) 240.0 (3.3 kJ‚mol-1. The most stable geometries of all phenylpyridine isomers were obtained using both restricted Hartree-Fock (RHF) and density functional theory (DFT/B3LYP) methods. The resulting geometries were then used to obtain estimates of enthalpies of formation of the three isomers of phenylpyridine, which are in good agreement with the experimental values. A theoretical interpretation of the effect of the phenyl ring has on the relative stabilities of the three molecules is presented.

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Double-valued potential energy surface for H2O derived from accurate ab initio data and including long-range interactions

Brandão

Rio

2003

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In a recent work we have been able to model the long-range interactions within the H 2 O molecule. Using these long-range energy terms, a complete potential energy surface has been obtained by fitting high-quality ab initio energies to a double-valued functional form in order to describe the crossing between the two lowest-potential-energy surfaces. The two diabatic surfaces are represented using the double many-body expansion model, and the crossing term is represented using a three-body energy function. To warrant a coherent and accurate description for all the dissociation channels we have refitted the potential energy functions for the H 2 ( 3 ⌺ u ϩ ), OH( 2 ⌸), and OH( 2 ⌺) diatomics. To represent the three-body extended Hartree-Fock nonelectrostatic energy terms, V 1 , V 2 , and V 12 , we have chosen a polynomial on the symmetric coordinates times a range factor in a total of 148 coefficients. Although we have not used spectroscopic data in the fitting procedure, vibrational calculations, performed in this new surface using the DVR3D program suite, show a reasonable agreement with experimental data. We have also done a preliminary quasiclassical trajectory study ͑300 K͒. Our rate constant for the reaction O(, is very close to the most recent recommended value. This kinetic result reinforces the importance of the inclusion of the long-range forces when building potential energy surfaces.

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Thermochemical and theoretical study of some methyldiazines

et al. 1996

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The standard (p0 = 0.1 MPa) molar enthalpies of formation for the liquid 2,3-dimethylpyrazine and trimethylpyrazine and the crystalline 2,3-dimethylquinoxaline and tetramethylpyrazine were derived from the standard molar enthalpies of combustion, in oxygen, at T = 298.15 K, measured by static-bomb combustion calorimetry. The standard molar enthalpies of vaporization or of sublimation for the same compounds were determined by Calvet microcalorimetry. Ab initio full geometry optimization at the 3-21G and 6-31G* levels were also performed for all the methylpyrazine isomers. MP2/RHF/3-21G//3-21G and DFT energies were also calculated for all the methylpyrazine isomers, thus allowing us to estimate their isodesmic resonance energies.

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Long-range interactions within the H2O molecule

Brandão

Rio

2003

Chemical Physics Letters

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Carolina Rio

Thermochemical and Theoretical Studies of Some Bipyridines

A Thermochemical and Theoretical Study of the Phenylpyridine Isomers

Double-valued potential energy surface for H2O derived from accurate ab initio data and including long-range interactions

Thermochemical and theoretical study of some methyldiazines

Long-range interactions within the H2O molecule

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