02613nmm a2200289 u 4500001001200000003002700012005001700039007002400056008004100080020001800121100002300139245009500162250001700257260004200274300003200316505046400348653002300812653002300835653002100858700003300879041001900912989003800931028003000969856007200999082001101071520124101082EB000628302EBX0100000000000000048138400000000000000.0cr|||||||||||||||||||||140122 ||| eng a97814684249351 aBockris, John O'M.00aQuantum ElectrochemistryhElektronische Ressourcecby John O'M. Bockris, Shahed U. M. Khan a1st ed. 1979 aNew York, NYbSpringer USc1979, 1979 aXIX, 518 pbonline resource0 a1. Electric Double Layers at Metals -- 2. Electrode Kinetics -- 3. Quanta and Surfaces -- 4. Time-Dependent Perturbation Theory -- 5. Long-Range Radiationless Energy Transfer in Condensed Media -- 6. Mechanisms of Activation -- 7. The Continuum Theory -- 8. Interfacial Electron Tunneling -- 9. Proton Transfer in Solution -- 10. Proton Transfer at Interfaces -- 11. The Hydrated Electron -- 12. Photoelectrochemical Kinetics -- 13. Quantum Electrode Kinetics aPhysical chemistry aPhysical Chemistry aElectrochemistry1 aKhan, Shahed U. M.e[author]07aeng2ISO 639-2 bSBAaSpringer Book Archives -200450a10.1007/978-1-4684-2493-540uhttps://doi.org/10.1007/978-1-4684-2493-5?nosfx=yxVerlag3Volltext0 a541.37 aThe origin of this book lies in a time before one of the authors (J. O'M. B.) left the University of Pennsylvania bound for the Flinders University. His collaboration with Dennis Matthews at the University of Pennsylvania had contributed a singular experimental datum to the quantum theory of elec trode processes: the variation of the separation factor with potential, which could only be interpreted in terms of a quantum theory of electrode kinetics. The authors came together as a result of grad~ate work of one of them (S. U. M. K.) on the quantum mechanics and photo aspects of elec trode processes, and this book was written during a postdoctoral fellowship held by him at the Flinders University. Having stated the book's origin, it is worthwhile stating the rational izations the authors had for writing it. Historically, quantization in elec trochemistry began very early (1931) in the applications of the quantum theory to chemistry. (See the historical table on pages xviii-xix.) There was thereafter a cessation of work on the quantum theory in electrochemistry until a continuum dielectric viewpoint, based on Born's equation for solvation energy, began to be developed in the 1950s and snowballed during the 1960s