Theory Of Rate Processes In Condensed Media

Author: B. Fain
Editor: Springer Science & Business Media
ISBN: 3642931537
File Size: 17,19 MB
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A wide range of important physical and chemical phenomena may be named by the same title: Rate processes in condensed media. They have the same underlying physics and mathematics. To these phenomena belong: 1) Small polaron motion [a] 2) Electron transfer between ions in solutions [b] and in photosynthetic centers [c]. 3) Electronic energy transfer between molecules or ions in solids and in liquids [d]. 4) Enzymatic catalysis [e] 5) Group transfer in biological systems [fl. 6) Electron-hole recombination in semiconductors [g]. 7) Non-radiative electronic relaxation in ionic centers Ih] and in impurity states in insulators [i]. 8) Recombination in amorphous solids [j]. 9) Radiationless transitions in large molecules [k]. At present a unified theoretical and conceptual framework exists for description and understanding of all these diverse phenomena. Our aim in writing this work is to introduce the student and the research worker in chemical physics to the main aspects of the conceptual framework of rate processes in condensed media. There exists an extensive literature devoted to various rate processes in condensed media. Among recent works, the books of Levine and Jortner [1], Fong [m] and Ulstrup [n] should be mentioned. The existence of this literature enables us to concentrate on the major theoretical aspects, omitting description and presentation of experimental data. We tried to make our work self-contained. Almost all the information necessary for reading the book is included. References used in the work by no means cover the literature on the subject.
Theory of Rate Processes in Condensed Media
Language: en
Pages: 168
Authors: B. Fain
Categories: Science
Type: BOOK - Published: 2012-12-06 - Publisher: Springer Science & Business Media

A wide range of important physical and chemical phenomena may be named by the same title: Rate processes in condensed media. They have the same underlying physics and mathematics. To these phenomena belong: 1) Small polaron motion [a] 2) Electron transfer between ions in solutions [b] and in photosynthetic centers
Charge Transfer Processes in Condensed Media
Language: en
Pages: 420
Authors: J. Ulstrup
Categories: Science
Type: BOOK - Published: 2012-12-06 - Publisher: Springer Science & Business Media

Molecules in liquid and solid media are exposed to strong inter action forces from the surrounding medium. The formulation of a comprehensive theory of chemical processes in condensed media is consequently an elaborate task involving concepts from several areas of the natural sciences. Within the las~ two and a half
Time-Dependent Reactivity of Species in Condensed Media
Language: en
Pages: 152
Authors: Andrzej Plonka
Categories: Science
Type: BOOK - Published: 2012-12-06 - Publisher: Springer Science & Business Media

These notes on the use of one particular form of the time-dependent rate constant to describe the reaction patterns in condensed media have been put together primarily to encourage chemists to try and accept this new way of experimental data treatment. A number of applications is shown and interpretative aspects
Dynamical Processes In Condensed Molecular Systems - Proceedings Of The Emil-warburg Symposium
Language: en
Pages: 464
Authors: Blumen A, Klafter Joseph, Haarer D
Categories: Science
Type: BOOK - Published: 1990-12-19 - Publisher: World Scientific

Books about Dynamical Processes In Condensed Molecular Systems - Proceedings Of The Emil-warburg Symposium
Transport, Relaxation, and Kinetic Processes in Electrolyte Solutions
Language: en
Pages: 206
Authors: Pierre Turq, Josef M.G. Barthel, Marius Chemla
Categories: Science
Type: BOOK - Published: 2012-12-06 - Publisher: Springer Science & Business Media

The presence of freely moving charges gives peculiar properties to electrolyte solutions, such as electric conductance, charge transfer, and junction potentials in electrochemical systems. These charges play a dominant role in transport processes, by contrast with classical equilibrium thermodynamics which considers the electrically neutral electrolyte compounds. The present status of