Citation: Ha. Ferguson et al., THRESHOLD ENERGIES AND UNIMOLECULAR RATE CONSTANTS FOR ELIMINATION OFHF FROM CHEMICALLY ACTIVATED CF3CH2CH3 AND CF3CH2CF3 - EFFECT OF CH3 AND CF3 SUBSTITUENTS AT THE BETA-CARBON AND IMPLICATIONS ABOUT THE TRANSITION-STATE, The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory, 102(28), 1998, pp. 5393-5397
Citation: 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
Citation: Dr. Mcdowell et Be. Holmes, SUBSTITUENT EFFECTS ON THE DISPROPORTIONATION-COMBINATION RATE-CONSTANT RATIOS FOR GAS-PHASE HALOCARBON RADICALS .3. REACTIONS OF CF3+CF3CH2CHCF3 AND CF3CH2CHCF3+CF3CH2CHCF3, International journal of chemical kinetics, 28(2), 1996, pp. 109-114
Citation: Dr. Mcdowell et al., SUBSTITUENT EFFECTS ON THE DISPROPORTIONATION-COMBINATION RATE-CONSTANT RATIOS FOR GAS-PHASE HALOCARBON RADICALS .2. REACTIONS OF CENTER-DOT-CF3-CENTER-DOT AND 3CH2CH2-CENTER-DOT+CF3CH2CH2-CENTER-DOT(CF3CH2CH2), International journal of chemical kinetics, 28(1), 1996, pp. 61-68
Citation: Jb. Mcdoniel et Be. Holmes, SUBSTITUENT EFFECTS AND THRESHOLD ENERGIES FOR THE UNIMOLECULAR ELIMINATION OF HCL (DCL) AND HF (DF) FROM CHEMICALLY ACTIVATED CFCL2CH3 ANDCFCL2CD3, Journal of physical chemistry, 100(8), 1996, pp. 3044-3050