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_aFunctional materials : _badvances and applications in energy storage and conversion / _cedited by Toshio Naito. |
| 264 | 1 |
_aSingapore : _bPan Stanford Publishing, _c[2019] |
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| 264 | 4 | _c©2019 | |
| 300 |
_a1 online resource : _billustrations |
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_atext _btxt _2rdacontent |
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_acomputer _bc _2rdamedia |
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_aonline resource _bcr _2rdacarrier |
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| 505 | 0 | _aCover; Half Title; Title Page; Copyright Page; Table of Contents; Preface; 1: Control of Magnetism and Conduction in Organic Materials by Light; 1.1 Introduction; 1.1.1 Historical Background; 1.1.2 Molecular Materials; 1.1.3 Different Solid States for Different Purposes; 1.1.4 Properties and Structures; 1.1.4.1 Crystal structure without unpaired electrons or conduction pathways; 1.1.4.2 Crystal structure with localized unpaired electrons; 1.1.4.3 Crystal structure of two-dimensional conductors; 1.1.4.4 Crystal structures of one-dimensional and three-dimensional conductors | |
| 505 | 8 | _a1.2 Cooperative Phenomena in Molecular Crystals1.2.1 Prerequisites for Conductors; 1.2.2 Example of an Insulator; 1.2.3 Example of Molecular Metals and Superconductors; 1.2.4 Doping of Molecular Materials; 1.3 Photoconduction and Related Phenomena in Molecular Materials: A Tutorial; 1.3.1 Ground vs. Photoexcited States: A Structural Aspect; 1.3.2 Ground vs. Photoexcited States: An Electronic Aspect; 1.3.3 CT Interaction between Different Components: Net Carrier and Spin Injection; 1.3.4 CT Interaction between the Same Components: Forming Conduction Pathways | |
| 505 | 8 | _a1.3.5 Magnetism vs. Conduction: A Tutorial1.3.6 Control of Magnetism and/or Conduction: Thermodynamic vs. Optical Methods; 1.4 Design of Photoconductors of a New Type; 1.4.1 Choice of Building Blocks for Forming Conduction Pathways; 1.4.2 Choice of Counterionic Species; 1.5 Examples of New Types of Photoconductors; 1.5.1 Photomagnetic Conductors; 1.5.2 Giant Photoconductivity; 1.5.3 New Types of Photoconduction; 1.6 How to Distinguish Purely Optical Processes from Thermal Effects; 1.6.1 Thermal Effects in Irreversible Optical Doping; 1.6.2 Thermal Effects in Reversible Optical Doping | |
| 505 | 8 | _a1.6.2.1 Problems and difficulties1.6.2.2 Dependence of photocurrent and activation energy on light intensity; 1.6.2.3 Model for activation energy in photoconduction; 1.6.2.4 Separation of thermal effects from optical effects; 1.7 Control of Spin Distribution by Light; 1.7.1 [Cu(dmit)2]2- Salts: Initial Prospect and Present Status as a Building Block for Molecular Conductors and Magnets; 1.7.2 Spin Distribution vs. Molecular Structures; 1.7.3 Response of Spins to UV: Results; 1.7.4 Response of Spins to UV: Discussion; 1.8 Summary and Prospects | |
| 505 | 8 | _a2: Diversity in the Electronic Phase due to Interchange of MO Levels in [M(dmit)2] Anion Salts (M = Pd and Pt)2.1 Introduction; 2.2 Crystal Structure; 2.3 Degree of Deviation from the Equilateral Triangular Lattice; 2.4 Charge Separation and Self-Organization due to the Interchange of MO Levels; 2.5 Electronic Spectra in the Charge Ordered State; 2.6 Method for Analyzing Intermolecular Interaction and Charge Separation on the Basis of Vibrational Spectroscopy Focused on the C=C Stretching Modes; 2.7 C=C Stretching Modes of X[M(dmit)2]2 Salts; 2.7.1 Triclinic-EtMe3P[Pd(dmit)2]2 [21] | |
| 520 | _aThe world is currently facing the urgent and demandingchallenges of saving and utilizing energy as efficiently as possible. Materials science, where chemistry meets physics, has garnered a great deal of attention because of its versatile techniques for designing and producing new, desired materials enabling energy storage and conversion. This book is a comprehensive survey of the research on such materials. Unlike a monograph or a review book, it covers a wide variety of compounds, details diverse study methodologies, and spans different scientific fields. It contains cutting-edge research in chemistry and physics from the interdisciplinary team of Ehime University (Japan), the members of which are currently broadening the horizon of materials sciences through their own ideas, tailored equipment, and state-of-the-art techniques. Edited by Toshio Naito, a prominent materials scientist, this book will appeal to anyone interested in solid-state chemistry, organic and inorganic semiconductors, low-temperature physics, or the development of functional materials, including advanced undergraduate- and graduate-level students of solid-state properties and researchers in metal-complex science, materials science, chemistry, and physics, especially those with an interest in (semi)conducting and/or magnetic materials for energy storage and conversion. | ||
| 588 | _aOCLC-licensed vendor bibliographic record. | ||
| 650 | 0 | _aMaterials. | |
| 650 | 7 |
_aTECHNOLOGY & ENGINEERING / Engineering (General) _2bisacsh |
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| 650 | 7 |
_aTECHNOLOGY & ENGINEERING / Reference _2bisacsh |
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| 650 | 7 |
_aSCIENCE / General _2bisacsh |
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| 700 | 1 |
_aNaitō, Toshio, _eeditor. |
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| 856 | 4 | 0 |
_3Read Online _uhttps://www.taylorfrancis.com/books/9780429468131 |
| 856 | 4 | 2 |
_3OCLC metadata license agreement _uhttp://www.oclc.org/content/dam/oclc/forms/terms/vbrl-201703.pdf |
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