STRUCTURES, VIBRATIONAL FREQUENCIES, THERMODYNAMIC PROPERTIES, AND BOND-DISSOCIATION ENERGIES OF THE BROMOMETHANES AND BROMOMETHYL RADICALS- AN AB-INITIO STUDY
Sj. Paddison et E. Tschuikowroux, STRUCTURES, VIBRATIONAL FREQUENCIES, THERMODYNAMIC PROPERTIES, AND BOND-DISSOCIATION ENERGIES OF THE BROMOMETHANES AND BROMOMETHYL RADICALS- AN AB-INITIO STUDY, The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory, 102(30), 1998, pp. 6191-6199
Reported here is a theoretical study of the entire series of bromometh
anes (CH4-nBrn) and bromomethyl radicals (CH3-mBrm) establishing a sel
f-consistent set of structural and thermodynamic information. Ab initi
o molecular orbital calculations were performed to compute equilibrium
geometries for the molecules and radicals initially at the (U)HF/6-31
G and (R)HF/6-31G* levels, respectively, and then refined at the MP2/
6-31G level. Vibrational frequencies were determined for all species
at the HF/6-31G level and comparison with infrared measurements and m
atrix isolation studies is favorable. Electron correlation contributio
ns were performed by single-point calculations using fourth-order Moll
er-Plesset perturbation theory for derived MP2/6-31G geometries. Enth
alpies of formation were obtained from a consideration of applicable i
sodesmic reactions using the derived MP4/6-31G*//MP2/6-31G* total ene
rgies in conjunction with experimentally established enthalpies of for
mation for CH3Br, CH4, and CH3.. The calculations predict the followin
g standard enthalpies of formation in kilocalories per mole (at 298 K
and 1 atm): CH2Br2, 1.07 +/- 0.6; CHBr3, 12.16 +/- 0.7; CBr4, 25.23 +/
- 0.8; CH2Br(.), 41.63 +/- 0.4; CHBr2., 48.11 +/- 0.6; and CBr3., 55.3
6 +/- 0.7. These data are then used to tabulate Delta H degrees(f,T),
Delta G degrees(f,T), and K-f,K-T for all species over the temperature
range 0-1500 K. Comparison is made to existing thermochemical data th
rough calculation of C-H and C-Br bond dissociation energies.