Bond energies and the enthalpies of formation of mono- and polyradicals in nitroalkanes 2. Nitro derivatives of ethane and propane

Мирошниченко, Е. А.; Kon’kova, T. S.; Inozemtsev, Ya. O.; Matyushin, Yu. N.

doi:10.1007/s11172-010-0182-4

Cited by 9 publications

(7 citation statements)

References 3 publications

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“…The calculated Δ f H 298 o (g) values for 19−22, 26, 28, and 29 are in internal consistency with the experimental data for mononitroalkanes (1−8), dinitroalkanes (10−18), and tetranitroalkanes (23)(24)(25)27), and thus the theoretical gas-phase enthalpies of formation are recommended for 19 −22, 26, 28, and 29 in Table 2 rather than the experimental data. On the basis of these values and the experimental condensed phase enthalpies of formation, the new values of enthalpy of vaporization or sublimation are recommended in Table 2 Among the seven cyclic and polycyclic nitro compounds (30)(31)(32)(33)(34)(35)(36), the largest difference of 47 kJ·mol −1 is revealed between the experimental and calculated Δ f H 298 o (g) values of 1,1-dinitrocyclopropane (32). Evidence of experimental error for 32 was derived from the results of isodesmic reaction calculations (see Table S2 of Supporting Information).…”

Section: Journal Of Chemical and Engineering Datamentioning

confidence: 99%

“… a Values calculated from isodesmic reactions are given. b Calculated in this work using the relationships between condensed and gas phase enthalpies of formation: Δ f H 298 o (l) + Δ vap H 298 o = Δ f H 298 o (g) or Δ f H 298 o (cr) + Δ sub H 298 o = Δ f H 298 o (g). c Reference . d Reference . e Estimated on the basis of experimental Δ vap H 298 o values for nitromethane and trinitromethane. f (323 to 353) K. g Estimation. h Reference . i Reference . j G4(MP2) energies were used in the isodesmic reaction calculations. k Reference . l The value of Δ f H 298 o (cr) = 83.7 kJ·mol –1 is given by the authors, however, a different value, 108.0 kJ·mol –1 , is obtained from the enthalpy of combustion given in ref . m Estimated from empirical equation. n Reference . o Reference . p Reference . q Reference . r Reference . s The enthalpy of sublimation at 373.7 K (ref ) was recalculated to 298.15 K using the C p ,298 o (cr) = 218.0 J·K –1 ·mol –1 (ref ) and C p ,298 o (g) = 171.7 J·K –1 ·mol –1 calculated in this work. t Interpolated from the enthalpies of formation of methyldinitramine ( 50 ) and n -butyldinitramine ( 53 ). u Reference . v Obtained using MP2/cc-pVTZ calculations and the estimated value of Δ sub H 298 o ; this value leads to reasonable agreement with the experimental enthalpy of combustion determined in ref . w Assumed to be equal to the enthalpy of sublimation of biuret. x Estimated by comparison with related compounds, see ref . …”

Section: Computational Detailsmentioning

confidence: 99%

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Use of G4 Theory for the Assessment of Inaccuracies in Experimental Enthalpies of Formation of Aliphatic Nitro Compounds and Nitramines

Suntsova

Дорофеева

2014

J. Chem. Eng. Data

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The gas-phase enthalpies of formation (Δ f H 298 o ) of 57 aliphatic nitro compounds and nitramines (mono-and polynitro compounds including cyclic compounds and well-known explosives such as hexogen, octogen, and CL-20) were calculated using the Gaussian-4 (G4) theory applied to the atomization and isodesmic reaction energies. The Δ f H 298 o (g) values calculated from the atomization reactions were underestimated by an average of 10 kJ·mol −1 , and they could not be used for the assessment of inaccuracies in the experimental enthalpies of formation. Much better agreement between theory and experiment was obtained using the isodesmic reaction procedure. Several isodesmic reactions were investigated for each compound. Evidence of high accuracy of most experimental data was provided by the agreement with theoretical results. The differences between the calculated and the experimental enthalpies of formation in the range from (8 to 53) kJ·mol −1 were assigned to possible errors in the experimental values for 17 compounds. The theoretical Δ f H 298 o (g) values were recommended for these compounds as being more reliable than the experimental values. As a result, a reference data set of internally consistent gas-phase enthalpies of formation of nitro compounds and nitramines was provided. Both experimental and calculated values are included in this data set. The enthalpies of sublimation or vaporization were evaluated for some compounds by taking into account the literature data on the condensed phase enthalpies of formation and the Δ f H 298 o (g) values recommended in our work. Thus, a set of self-consistent values of the enthalpy of formation in both condensed and gaseous phases and the enthalpy of sublimation or vaporization is presented for most of nitro compounds studied.

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Section: Journal Of Chemical and Engineering Datamentioning

confidence: 99%

Section: Computational Detailsmentioning

confidence: 99%

Use of G4 Theory for the Assessment of Inaccuracies in Experimental Enthalpies of Formation of Aliphatic Nitro Compounds and Nitramines

Suntsova

Дорофеева

2014

J. Chem. Eng. Data

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“…The D f H 298 values were calculated from isodesmic reactions for some other compounds (3,10,14,17) with considerable deviations from experiment. However, for these compounds (Table 5), the results from isodesmic reactions are very close to the experimental values.…”

Section: Nitro Compoundsmentioning

confidence: 99%

Assessment of Gaussian-4 theory for the computation of enthalpies of formation of large organic molecules

et al. 2011

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“…(2); fairly accurate estimates of the formation enthalpies of mononitroalkanes have been obtained [4][5][6][7]. Accuracy of the estimates of formation enthalpies of the hydrocarbon radicals required for calculation of D(C-N) has been much worse: the two poorly correlated sets of values have been reported in the literature [8][9][10], the difference between the values often exceeding 12-15 kJ/mol.…”

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confidence: 99%

Effect of molecular structure of nitroalkanes on the C-NO2 bond strength and activation energy of the gas-phase radical decomposition according to the quantum-chemical simulation

Храпковский¹,

Егоров²,

Николаева³

et al. 2015

Russ J Gen Chem

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The non-empirical (MP2 and CCSD), composite (G4), and DFT (B3LYP, CAM-B3LYP, B98, and wB97XD) methods with different basis sets have been employed to compute the formation enthalpies of a series of C 1 -C 4 nitroalkanes and the hydrocarbon radicals formed via the C-N bond rupture as well as the C-N bond dissociation energies. For the series of isomeric nitroalkanes, the effects of the nature of the participating carbon atom (primary, secondary, or tertiary) and the size of adjacent alkyl group on the C-N bond strength have been analyzed. The reasons for different thermochemical and kinetic estimates of the C-N bond dissociation energy in nitroalkanes have been discussed.

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Bond energies and the enthalpies of formation of mono- and polyradicals in nitroalkanes 2. Nitro derivatives of ethane and propane

Cited by 9 publications

References 3 publications

Use of G4 Theory for the Assessment of Inaccuracies in Experimental Enthalpies of Formation of Aliphatic Nitro Compounds and Nitramines

Use of G4 Theory for the Assessment of Inaccuracies in Experimental Enthalpies of Formation of Aliphatic Nitro Compounds and Nitramines

Assessment of Gaussian-4 theory for the computation of enthalpies of formation of large organic molecules

Effect of molecular structure of nitroalkanes on the C-NO2 bond strength and activation energy of the gas-phase radical decomposition according to the quantum-chemical simulation

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