Bond energies and formation enthalpies of mono- and polyradicals in nitroalkanes 1. Nitromethanes

Abstract: The enthalpies of formation of nitromethane derivatives were obtained on the basis of experimental and literature data. The procedure for the calculation of the bond dissociation energies in nitromethanes from the atomization enthalpies and energies of nonvalent interac tions of nitro groups was proposed. The calculated values were compared with the data on the thermal decomposition kinetics. The atomization enthalpies and energies of nonvalent interac tions of nitro groups were also used for the calculation o… Show more

“…Knowledge of the enthalpies of radical formation is necessary for calculations of enthalpies of chemical reactions and for prediction of the most probable reaction mechanisms. The bond dissociation energies and the en thalpies of formation of radicals and molecules are related by the following equation D(R 1 -R 2 ) = ΔH f°( R 1 ) + ΔH f°( R 2 ) -ΔH f°( R 1 R 2 ), (1) where D(R 1 -R 2 ) is the dissociation energy of the com pound R 1 R 2 to the radicals R 1 and R 2 ; ΔH f°( R 1 ), ΔH f°( R 2 ), and ΔH f°( R 1 R 2 ) are the enthalpies of formation of the radicals R 1 and R 2 , and compound R 1 R 2 in the gas phase under standard conditions, respectively. In the present work, it is assumed that the dissociation energy of the R-NO 2 bond is equal to the activation energy of mono molecular thermal decomposition of nitrogen containing compounds proceeding by a radical mechanism (E a ).…”

“…In the present work, it is assumed that the dissociation energy of the R-NO 2 bond is equal to the activation energy of mono molecular thermal decomposition of nitrogen containing compounds proceeding by a radical mechanism (E a ). 1 Equation (1) is used for determining unknown enthalpies of formation of radicals and bond dissociation energies. The enthalpies of formation of radicals are usually deter mined with the largest error (≥2 kcal mol -1 ).…”

“…1. using Eq. (1) give reliable values of ΔH f° and D if the cor responding kinetic and thermodynamic data are available. Previously, 1 it was proposed to calculate changes in R-NO 2 bond dissociation energies in polyfunctional compounds using the changes in the contributions of nitro groups to the enthalpy of atomization relative to the corresponding contributions in mononitroalkane, in particular, nitromethane.…”

“…The results of similar calculations for radicals also agree with the enthalpies of formation of methane polyradicals. 1 In the present work, the procedure used for D(R-NO 2 ) calculations for molecules and radicals of the nitro de rivatives of ethane and propane is similar to that described earlier. 1 The dissociation energies of R-NO 2 bonds in mononitroalkanes are determined from Eq.…”

“…1 In the present work, the procedure used for D(R-NO 2 ) calculations for molecules and radicals of the nitro de rivatives of ethane and propane is similar to that described earlier. 1 The dissociation energies of R-NO 2 bonds in mononitroalkanes are determined from Eq. (1) using the experimental values of the enthalpies of formation of these substances in the gas phase and the reference data on the enthalpies of formation of the • NO 2 and alkyl radicals.…”

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

“…Knowledge of the enthalpies of radical formation is necessary for calculations of enthalpies of chemical reactions and for prediction of the most probable reaction mechanisms. The bond dissociation energies and the en thalpies of formation of radicals and molecules are related by the following equation D(R 1 -R 2 ) = ΔH f°( R 1 ) + ΔH f°( R 2 ) -ΔH f°( R 1 R 2 ), (1) where D(R 1 -R 2 ) is the dissociation energy of the com pound R 1 R 2 to the radicals R 1 and R 2 ; ΔH f°( R 1 ), ΔH f°( R 2 ), and ΔH f°( R 1 R 2 ) are the enthalpies of formation of the radicals R 1 and R 2 , and compound R 1 R 2 in the gas phase under standard conditions, respectively. In the present work, it is assumed that the dissociation energy of the R-NO 2 bond is equal to the activation energy of mono molecular thermal decomposition of nitrogen containing compounds proceeding by a radical mechanism (E a ).…”

“…In the present work, it is assumed that the dissociation energy of the R-NO 2 bond is equal to the activation energy of mono molecular thermal decomposition of nitrogen containing compounds proceeding by a radical mechanism (E a ). 1 Equation (1) is used for determining unknown enthalpies of formation of radicals and bond dissociation energies. The enthalpies of formation of radicals are usually deter mined with the largest error (≥2 kcal mol -1 ).…”

“…1. using Eq. (1) give reliable values of ΔH f° and D if the cor responding kinetic and thermodynamic data are available. Previously, 1 it was proposed to calculate changes in R-NO 2 bond dissociation energies in polyfunctional compounds using the changes in the contributions of nitro groups to the enthalpy of atomization relative to the corresponding contributions in mononitroalkane, in particular, nitromethane.…”

“…The results of similar calculations for radicals also agree with the enthalpies of formation of methane polyradicals. 1 In the present work, the procedure used for D(R-NO 2 ) calculations for molecules and radicals of the nitro de rivatives of ethane and propane is similar to that described earlier. 1 The dissociation energies of R-NO 2 bonds in mononitroalkanes are determined from Eq.…”

“…1 In the present work, the procedure used for D(R-NO 2 ) calculations for molecules and radicals of the nitro de rivatives of ethane and propane is similar to that described earlier. 1 The dissociation energies of R-NO 2 bonds in mononitroalkanes are determined from Eq. (1) using the experimental values of the enthalpies of formation of these substances in the gas phase and the reference data on the enthalpies of formation of the • NO 2 and alkyl radicals.…”

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

Bond energies and the enthalpies of formation of mono- and polyradicals in nitroakanes 3. Nitroalkanes C4–C7

Enthalpies of formation of 3,4- and 3,5-dinitro-1-trimethyl-1Н-pyrazoles