par Johnston, Harold H.S.;Goldfinger, Paul 
Référence The Journal of Chemical Physics, 37, 4, page (700-709)
Publication Publié, 1962
Référence The Journal of Chemical Physics, 37, 4, page (700-709)
Publication Publié, 1962
Article révisé par les pairs
| Résumé : | The Arrhenius A and E factors of over 60 elementary reactions in photochlorination systems have recently been evaluated experimentally in this and other laboratories. In this article a uniform treatment of most of these reactions is given by activated complex theories. Two parameters are fit to the data from two activation energies. The other activation energies follow the expected trend for reactions of chlorine atoms with hydrocarbons, but the reactions of chlorine atoms with chlorinated hydrocarbons do not follow the expected trends. For reactions with activation energy, the theory accounts very well for the magnitudes and trends of the Arrhenius A factors. For reactions with no activation energy, the activated complex theory as used by Gorin accounts for the order of magnitude of the rate constants of the group as a whole, but it fails to account for several pronounced trends in the data and is judged to be of no predictive value. For certain limited types of chemical reactions and over restricted ranges of experimental conditions, activated-complex theory is judged capable of predicting some kinetic factors. The range of predictions is small, but is not zero. |
