Abstract
A mechanism is described for chemiluminescent electron-transfer reactions. It is shown that in the case of very exothermic homogeneous electron-transfer reactions, the intersection of the potential-energy surface of the reactants with that of electronically unexcited products occurs only at high energies. The rate of formation of unexcited products then becomes slow. A numerical estimate of this slowness is made using known homogeneous rate constants for ordinary electron-exchange reactions. An intersection occurs at lower energies when one of the products of a highly exothermic electron transfer is electronically excited, thereby reducing the exothermicity. The product may emit light or subsequently form a state that does. A rather different situation is shown to occur at electrodes: the system can now reduce the ``exothermicity'' by having the electron transfer into a high unoccupied level of the conduction band or from a low occupied level of the latter. The large width of the conduction band in metals permits much latitude in reducing the exothermicity thereby. These results are compared with present experimental findings that chemiluminescent electron transfers occur in solution rather than on electrode surfaces.
Keywords
Electron transferExothermic reactionChemiluminescenceChemistryElectronExcited stateHomogeneousAtomic physicsReaction rate constantPhotochemistryChemical physicsThermodynamicsPhysical chemistryPhysicsKineticsClassical mechanicsQuantum mechanics
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Publication Info
- Year
- 1965
- Type
- article
- Volume
- 43
- Issue
- 8
- Pages
- 2654-2657
- Citations
- 255
- Access
- Closed
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Cite This
R. A. Marcus
(1965).
On the Theory of Chemiluminescent Electron-Transfer Reactions.
The Journal of Chemical Physics
, 43
(8)
, 2654-2657.
https://doi.org/10.1063/1.1697190
Identifiers
- DOI
- 10.1063/1.1697190