THRESHOLD ENERGY AND UNIMOLECULAR RATE-CONSTANT FOR ELIMINATION OF HFFROM CHEMICALLY ACTIVATED CF3CF2CH3 - EFFECT OF THE CF3 SUBSTITUENT ON THE ALPHA-CARBON
Jb. Mcdoniel et Be. Holmes, THRESHOLD ENERGY AND UNIMOLECULAR RATE-CONSTANT FOR ELIMINATION OF HFFROM CHEMICALLY ACTIVATED CF3CF2CH3 - EFFECT OF THE CF3 SUBSTITUENT ON THE ALPHA-CARBON, The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory, 101(7), 1997, pp. 1334-1337
Methyl and CF3CF2 radicals were combined to form chemically activated
CF3CF2CH3 with 104 kcal/mol of internal energy, and the experimental r
ate constant for unimolecular 1,2-dehydrofluorination was 4.5 x 10(5)
s(-1). Fitting the calculated rate constant for HF elimination from RR
KM theory to the experimental value provided a threshold energy, E(0),
of 68.5 kcal/mol. Comparing this threshold energy to those for CF2HCH
3, CH3CF2CH3, CF2ClCH3, and CF3CH3 shows that replacing the alpha-H of
CF2HCH3 with CH3 lowered the E(0) by 7 kcal/mol and replacing with CF
3, Cl, or F raises the E(0) about 8 kcal/mol. The CF3 substituent, an
electron acceptor, increased the E,by an amount nearly equal to that w
ith F and Cl substituents, suggesting that halogen substituents exert
a similar inductive effect at the alpha-carbon that loses electron den
sity as the transition state forms. These proposals will be compared t
o recent calculations of the carbon's atomic charges in the reactant a
nd transition state.