Isoconversional Kinetics of Thermally Stimulated Processes
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Beschreibung
1. Some basics en route to isoconversional methodology
1.1. From condensed phase kinetics to isoconversional principle
1.2. Understanding variable activation energy
1.3. Obtaining computation worthy data
2. Isoconversional methodology
2.1. Evolution of isoconversional methods
2.1.1. Early methods
2.1.2. Modern methods
2.2. Estimating reaction models and preexponential factors
2.2.1. Prelude
2.2.2. The use of the compensation effect
2.2.3. The use of the y() or z() master plots
2.3. Kinetic predictions
2.3.1. Why predictions?
2.3.2. Model-based vs. model-free
2.3.3. Understanding precision and accuracy of predictions
3. Physical Processes
3.1. Phases and transitions between them
3.2. Vaporization and Sublimation
3.2.1. Background
3.2.2. Isoconversional treatment
3.3. Glass transition
3.3.1. Background
3.3.2. Isoconversional treatment
3.4. Glass aging
3.4.1. Background
3.4.2. Isoconversional treatment
3.4.3. Activation energies of -relaxation from DSC
3.5. Nucleation
3.6. Crystallization of polymers
3.6.1. Background
3.6.2. Isoconversional treatment
3.7. Melting of polymers
3.7.1. Background
3.7.2. Isoconversional treatment
3.8. Solid-solid transitions
3.8.1. Background
3.8.2. Isoconversional treatment
3.9. Mixing and demixing
3.9.1. Background
3.9.2. Isoconversional treatment
3.10. Gelation and gel melting
3.10.1. Background
3.10.2. Isoconversional treatment of gelation
3.10.3. Isoconversional treatment of gel melting
3.11. Helix-Coil Transition
3.11.1. Background
3.11.2. Isoconversional treatment of protein denaturation
4. Chemical processes
4.1. Introduction
4.2. Polymerization and Crosslinking
4.2.1. Background to polymerization
4.2.2. Isoconversional treatment of polymerization
4.2.3. Background to crosslinking
4.2.4. Isoconversional treatment of crosslinking
4.3. Thermal and Thermo-oxidative degradation of polymers
4.3.1. Background
4.3.2. Isoconversional treatment
4.4. Thermal decomposition of solids
4.4.1. Background
4.4.2. Isoconversional treatment
5. Epilogue
1.1. From condensed phase kinetics to isoconversional principle
1.2. Understanding variable activation energy
1.3. Obtaining computation worthy data
2. Isoconversional methodology
2.1. Evolution of isoconversional methods
2.1.1. Early methods
2.1.2. Modern methods
2.2. Estimating reaction models and preexponential factors
2.2.1. Prelude
2.2.2. The use of the compensation effect
2.2.3. The use of the y() or z() master plots
2.3. Kinetic predictions
2.3.1. Why predictions?
2.3.2. Model-based vs. model-free
2.3.3. Understanding precision and accuracy of predictions
3. Physical Processes
3.1. Phases and transitions between them
3.2. Vaporization and Sublimation
3.2.1. Background
3.2.2. Isoconversional treatment
3.3. Glass transition
3.3.1. Background
3.3.2. Isoconversional treatment
3.4. Glass aging
3.4.1. Background
3.4.2. Isoconversional treatment
3.4.3. Activation energies of -relaxation from DSC
3.5. Nucleation
3.6. Crystallization of polymers
3.6.1. Background
3.6.2. Isoconversional treatment
3.7. Melting of polymers
3.7.1. Background
3.7.2. Isoconversional treatment
3.8. Solid-solid transitions
3.8.1. Background
3.8.2. Isoconversional treatment
3.9. Mixing and demixing
3.9.1. Background
3.9.2. Isoconversional treatment
3.10. Gelation and gel melting
3.10.1. Background
3.10.2. Isoconversional treatment of gelation
3.10.3. Isoconversional treatment of gel melting
3.11. Helix-Coil Transition
3.11.1. Background
3.11.2. Isoconversional treatment of protein denaturation
4. Chemical processes
4.1. Introduction
4.2. Polymerization and Crosslinking
4.2.1. Background to polymerization
4.2.2. Isoconversional treatment of polymerization
4.2.3. Background to crosslinking
4.2.4. Isoconversional treatment of crosslinking
4.3. Thermal and Thermo-oxidative degradation of polymers
4.3.1. Background
4.3.2. Isoconversional treatment
4.4. Thermal decomposition of solids
4.4.1. Background
4.4.2. Isoconversional treatment
5. Epilogue
Eigenschaften
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