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Low-dimensional organic conductors / Andrzej Graja.
- Format:
- Book
- Author/Creator:
- Graja, Andrzej.
- Language:
- English
- Subjects (All):
- Organic conductors.
- One-dimensional conductors.
- Physical Description:
- 1 online resource (316 p.)
- Place of Publication:
- Singapore ; River Edge, NJ : World Scientific, c1992.
- Language Note:
- English
- Summary:
- 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 and designers working on contemporary electronics.
- Contents:
- Preface to Polish Edition; Preface to English Edition; CONTENTS; CHAPTER 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-Dimensional and Three-Dimensional Materials; 1.5. Potentialities for the Application of Low-Dimensional Organic Conductors; CHAPTER 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 Systems2.3. 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; CHAPTER 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
- 3.3.1 Charge transfer complezes3.3.2. Simple ion-radical tetracyano-p-quinodimethane salts; 3.3.3. Complex ion-radical tetracyano-p-quinodimethane salts; 3.4. Electric Properties; 3.5. Mechanism 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 SystemsCHAPTER 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; 4.7.1. General comments on the structure of other polymers; 4.7.2. Polydiacetylenes; 4.7.3. Polyphenylene; 4.7.4. Polyaniline; 4.7.5. Polythiophene
- 4.8. The Structure and Electrical Properties of Heterogeneous Polymer Systems Containing a Microcrystalline Network of Charge Transfer ComplexesCHAPTER 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
- CHAPTER 6. STRUCTURE, PROPERTIES AND APPLICATIONS OF HETEROGENEOUS ORGANIC MOLECULES AND MOLECULAR STRUCTURES
- Notes:
- Description based upon print version of record.
- Includes bibliographical references (p. 292-301) and index.
- ISBN:
- 9789814360487
- 9814360481
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