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Low-dimensional organic conductors /
This book is a review of physical properties of organic conductors and superconductors. It is amply illustrated and contains numerous data concerning the latest elements and equipment constructed of low-dimensional organic conductors. It is hoped that the book will be stimulating for technologists a...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Singapore ; River Edge, NJ :
World Scientific,
©1992.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- 1. General remarks. 1.1. Introduction
- 1.2. Historical survey of research in organic conducting materials
- 1.3. Basic properties of low-dimensional organic materials
- 1.4. Analogies and differences between the properties of one- and three-dimensional materials
- 1.5. Potentialities for the application of low-dimensional organic conductors
- 2. Physical principles of the phenomena occurring in one-dimensional systems. 2.1. Properties of one-dimensional electron gas
- 2.2. Basic types of interactions in one-dimensional systems
- 2.3. Charge localization problems
- 2.4. Charge density waves and spin density waves
- 2.5. Solitons
- 2.6. Selected problems of phase transition theory in one-dimensional systems
- 2.7. Physical bases of superconductivity in organic systems
- 3. Structure and properties of conducting organic crystals
- 3.1. Ion-radical salts and charge transfer complexes: molecular structure of donors and acceptors
- 3.2. Molecular arrangement in quasi-one-dimensional crystals
- 3.3. Crystal structure of selected conducting organic crystals
- 3.4. Electric properties
- 3.5. Mechanisms of electric transport; nonlinear transport
- 3.6. Magnetic properties
- 3.7. Magnetic ordering and magnetization
- 3.8. Optical properties
- 3.9. Electron-phonon interactions in one-dimensional systems
- 3.10. Phase transitions
- 3.11. Influence of pressure on physical properties of the system and phase transition mechanisms
- 3.12. Role of structural disorder and defects
- 3.13. Superconductivity in organic systems
- 4. Structure and properties of conducting polymers
- 4.1. Introductory comments
- 4.2. Structure of pure and doped polyacetylene
- 4.3. Electrical properties of doped polyacetylene
- 4.4. Optical properties of doped polyacetylene
- 4.5. Magnetic properties and spin dynamics in doped polyacetylene
- 4.6. Structure and properties of polypyrrole
- 4.7. Structure and properties of other conducting polymers
- 4.8. The structure and electrical properties of heterogeneous polymer systems containing a microcrystalline network of charge transfer complexes
- 5. Methods of obtaining low-dimensional organic conductors. 5.1. Introductory comments
- 5.2. Methods of obtaining crystalline ion-radical salts and charge transfer complexes
- 5.3. Electrochemical method of producing high-conducting organic crystals
- 5.4. Methods of obtaining and doping polyacetylene
- 5.5. Other methods of obtaining low-dimensional high-conducting polymers
- 6. Structure, properties and applications of heterogeneous organic molecules and molecular structures. 6.1. Introductory comments
- 6.2. p-n junction in organic systems
- 6.3. Metal-organic semiconductor systems
- 6.4. Photovoltaic effect in organic systems
- 6.5. Molecular electrochemical equipment
- 6.6. Other applications of organic conductors
- 7. Perspectives on development and modernisation of molecular materials
- 7.1. Introductory comments
- 7.2. Some possible materials of molecular electronics
- 7.3. Future solutions to selected electronic elements
- 7.4. Problems to be solved. Summary
- References.