| |
 | | Molin Yu.N. Spin Exchange. Principles and Applications in Chemistry and Biology / Molin Yu.N., Salikhov K.M., Zamaraev K.I. - Berlin; New York: Springer-Verlag, 1980. - 242 p. - (Springer Series in Chemical Physics; Vol.8) |
| | | Оглавление книги |
|
1. Introduction ................................................ 1
2. Theory of Spin Exchange .................................... 11
2.1 Exchange Interaction Between Two Paramagnetic Particles 11
Dependence of Interaction Energy on Spin ................ 11
Spin-Hamiltonian of Exchange Interaction ................ 13
The Nature of Exchange Interaction.
The Two-Electron System ................................. 13
Interaction Between Many-Electron Systems.
Delocalization and Spin Polarization .................... 16
Anisotropy of Exchange Interaction ...................... 19
Semiempirical Estimates of Exchange Integral ............ 20
2.2 Qualitative Description of Spin Exchange Process ........ 25
Spin Exchange ........................................... 25
Spin Exchange in a Two-Electron System .................. 26
Spin Density Matrix ..................................... 28
Spin Motion Due to Exchange Interaction ................. 30
2.3 Formal Kinetics of Spin Exchange in Magnetically
Dilute Solutions ........................................ 34
Binary Collision Approximation .......................... 34
Rate of Bimolecular Spin Exchange Process ............... 35
Kinetics of Spin Exchange for Particles with Spins S=1/2 36
Kinetic Equations for Free Radicals Showing Hyperfine
Structure (HFS) in Their ESR Spectra .................... 40
2.4 Spectroscopic Manifestations of Spin Exchange ........... 41
Spectral Diffusion Due to Spin Exchange ................. 41
Shape of ESR Spectra .................................... 42
Slow Exchange ........................................... 45
Fast Exchange ........................................... 48
Other Methods of Measuring the Rate of Spin Exchange .... 49
Effect of Saturation .................................... 50
Electron-Electron Double Resonance (ELDOR) .............. 53
Electron Spin Echo ...................................... 55
2.5 Theory of Sudden Collisions ............................. 56
2.5.1 Model of Sudden Collisions ........................ 56
Basic Assumptions ................................. 56
Equations for the Estimation of τc ................ 58
2.5.2 Kinetic Equations ................................. 61
Steady-State Equation for the Operator of
Collision Efficiency .............................. 64
2.5.3 Spin Exchange Between Radicals .................... 65
Model System ...................................... 65
Spin Exchange Between Radicals in the Presence
of Hyperfine Interaction .......................... 70
2.5.4 Spin Exchange Between Radicals with Anisotropic
Interaction ....................................... 70
Rotation of Partners at the Moment of
Their Contact ..................................... 71
Orientational Relaxation of Particles in
Intervals Between Reencounters .................... 78
2.5.5 Spin Exchange of Radicals with Other
Paramagnetic Particles ............................ 82
Spin Exchange Between Radicals and Spins SB with
Long Times of Paramagnetic Relaxation ............. 83
Shape of ESR Spectra .............................. 85
The Influence of the Relaxation of Spin SB on
the Rate of Exchange .............................. 87
Anisotropy of Spin Exchange ....................... 90
2.5.6 Spin Exchange in Biradicals ....................... 91
The Model ......................................... 92
Kinetic Equations ................................. 93
The ESR Spectrum of Nitroxide Biradicals .......... 94
2.6 The Model of Diffusive Passage .......................... 96
The Model ............................................... 97
An Equation for the Operator of Collision Efficiency .... 98
The Kinetic Equations ................................... 99
The Spin Exchange Between Two Kinds of Particles with
Spins SA = SB = 1/2 ...................................... 99
Comparison of Results Obtained from Models of Sudden
Collisions and Those of Diffusive Passage .............. 103
3. Experimental Measurement of Spin Exchange Rate ............ 107
3.1 Experimental Measurement of Spin Exchange Rate
Constants from ESR Spectra .......................... 107
3.1.1 Exchange Between Identical Particles
with S = 1/2 .................................. 107
Doublet Spectrum with a Zero Initial Width .... 107
Complex Spectra ............................... 110
Determination of Rate Constants from Exchange
Broadening of Complex Spectra ................. 111
Determination of Rate Constants from Exchange
Shift of the Lines of Complex Spectra ......... 116
Determination of Rate Constants from Exchange
Narrowing of Complex Spectra .................. 117
Peculiarities of Exchange Narrowing in
Concentrated Solutions ........................ 118
Comparison of Spin Exchange Rate Constants
Measured by Different Techniques .............. 119
3.1.2 Exchange Between Different Particles .......... 120
3.2 Other Methods of Measuring the Spin Exchange Rate
Constants ........................................... 127
3.2.1 Continuous Wave Saturation Method ............. 127
3.2.2 Electron-Electron Double Resonance ............ 130
3.2.3 Electron Spin Echo ............................ 132
3.3 Separation of Exchange and Dipole-Dipole
Contributions to Concentration Broadening of ESR
Lines ............................................... 133
Theoretical Estimation of Dipole Broadening ......... 134
Experimental Estimation of Dipole-Dipole
Contribution at Low Viscosity ....................... 137
Separation of the Cases of Exchange and Dipole -
Dipole Broadening According to Viscosity and
Temperature Dependences ............................. 139
3.4 Separation of the Cases of Weak and Strong Exchange 142
4. Spin Exchange in Chemistry and Biology .................... 147
4.1 Study of Diffusion Collisions in Solutions .......... 148
Hydrodynamic Model of Diffusion Collisions .......... 148
Potentialities of Spin Exchange ..................... 149
4.1.1 Collisions in Single-Component Solvents ....... 152
Spin Exchange Between Radicals ................ 152
Spin Exchange Between Free Radicals and
Paramagnetic Complexes ........................ 158
4.1.2 Collisions in Complex Systems ................. 165
Binary Solvents ............................... 166
Liquids Near Critical Points .................. 168
Polymeric and Heterogeneous Systems ........... 171
Collisions of Macroradicals ................... 173
4.1.3 Study of Intramolecular Collisions of
Paramagnetic Fragments ........................ 175
4.2 Estimation of the Energy of Exchange Interaction
During Collisions ................................... 178
4.2.1 Free Radicals ................................. 180
4.2.2 Spin Exchange with Metal Complexes ............ 182
4.2.3 Discussion of Results ......................... 187
4.3 Collisions of Charged Particles ..................... 192
4.3.1 Experimental Results .......................... 193
Spin Exchange in Solutions of Anion Radical
(SO3)2NO2- ..................................... 193
Spin Exchange Involving Charged Nitroxide
Radicals ...................................... 198
Spin Exchange Between Anion Radicals in
Organic Solvents .............................. 203
4.3.2 Comparison of Experiments on Spin Exchange
with the Diffusion Theory of Collisions
of Charged Particles in Liquid ................ 204
4.3.3 Study of Collisions Between Aquo Complexes
of Transition Metals .......................... 207
Role of Counterions in Collisions of Aquo
Complexes of Vanadyl .......................... 207
An Example of the Process with Weak Influence
of Electrostatic Repulsion .................... 211
4.4 Biological Applications of Spin Exchange ............ 213
Paramagnetics Used as Spin Probes ................... 214
4.4.1 Measurement of Binary Collision Rate of
Molecules in Biological Systems ............... 214
4.4.2 Study of Location of Paramagnetic Centers
in Bio-polymers ............................... 217
Quantitative Interpretation of the Values
of Ke for Spin Exchange Processes
Involving Paramagnetic Centers of Biopolymers 220
4.4.3 "Development" of Individual ESR Spectra
of Spin Labels via Spin Exchange .............. 222
4.4.4 Spin Exchange Titration ....................... 225
Kinetics of Reactions Involving Oxygen
Molecules ..................................... 225
Coordination of Paramagnetic Ions by
Macromolecules ................................ 226
4.4.5 Other Applications ............................ 227
4.5 Conclusion .......................................... 228
List of Frequently Used Notations and Abbreviations ......... 231
References .................................................. 233
Subject Index ............................................... 241
|
| | | Molin Yu.N. Spin Exchange. Principles and Applications in Chemistry and Biology / Molin Yu.N., Salikhov K.M., Zamaraev K.I.. - Berlin; New York: Springer-Verlag, 1980. - 242 p. - (Springer Series in Chemical Physics; Vol.8). |  |
|
|
