Homolytic Bond Dissociation Energies

Homolytic bond dissociation energies or just bond dissociation energies (BDE) is a measure of a particular bond strength. For example, the BDE for the C-C bond in H₃C-CH₃ --> H₃C• + •CH₃ can be calculated using the calculated enthalpies of formation (ΔH_f) using the following method:

Using WebMO/Gaussian to calculate the ΔH_f(H₃C-CH₃), returns the following:

The energy, ie. ΔH_f(H₃C-CH₃) is reported in units of Hartree, -79.2287548119 Hartree

Using WebMO/Gaussian to calculate the ΔH_f(CH₃•), returns the following:

The energy, ie ΔH_f(CH₃•) is reported in units of Hartree, -39.5589916118 Hartree

ΔH_rxn = ΔH_f(Products) - ΔH_f(Reactants)

ΔH_rxn = 2*ΔH_f(CH₃•) - H_f(H₃C-CH₃)

ΔH_rxn = 2*-39.5589916118 - (-79.2287548119)

ΔH_rxn = 0.110771588 Hartree = 290.830826448 kJ/mol