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The Physics of Superionic Conductors and Electrode Materials
Overview of attention for book
Table of Contents
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Book Overview
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Chapter 1
Introduction
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Chapter 2
Relations between Crystal Structures and Ionic Conductivity
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Chapter 3
Thermodynamic and Transport Properties of Superionic Conductors and Electrode Materials
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Chapter 4
Evaluation and Meaning of Ionic and Dipolar Lattice Sums
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Chapter 5
Evaluation of Lattice Sums in Disordered Ionic Systems
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Chapter 6
On the Crystalline, Liquid, Glassy, Gaseous, and Superfluid States of Simple Substances
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Chapter 7
Molecular Dynamics Studies of Superionic Conductors
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Chapter 8
Some Applications of Conditionally Convergent Lattice Sums
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Chapter 9
Boundary Conditions in the Simulation of Ionic Systems
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Chapter 10
Introduction to Monte Carlo Simulation Techniques
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Chapter 11
The Calculation of Free Energies Using Computer Simulation
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Chapter 12
Monte Carlo Study of Solid Electrolytes
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Chapter 13
Molecular Dynamics with Constraints
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Chapter 14
Stochastic Dynamics of Polymers
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Chapter 15
Application of Irreversible Thermodynamics to Mass Transport in Ionic Conductors
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Chapter 16
Ion Transport Boundary Conditions
Overall attention for this book and its chapters
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Book overview
1. Introduction
2. Relations between Crystal Structures and Ionic Conductivity
3. Thermodynamic and Transport Properties of Superionic Conductors and Electrode Materials
4. Evaluation and Meaning of Ionic and Dipolar Lattice Sums
5. Evaluation of Lattice Sums in Disordered Ionic Systems
6. On the Crystalline, Liquid, Glassy, Gaseous, and Superfluid States of Simple Substances
7. Molecular Dynamics Studies of Superionic Conductors
8. Some Applications of Conditionally Convergent Lattice Sums
9. Boundary Conditions in the Simulation of Ionic Systems
10. Introduction to Monte Carlo Simulation Techniques
11. The Calculation of Free Energies Using Computer Simulation
12. Monte Carlo Study of Solid Electrolytes
13. Molecular Dynamics with Constraints
14. Stochastic Dynamics of Polymers
15. Application of Irreversible Thermodynamics to Mass Transport in Ionic Conductors
16. Ion Transport Boundary Conditions
Summary
Syllabi
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https://opensyllabus.org/
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Psychology