<電子ブック>
Graphite Intercalation Compounds II : Transport and Electronic Properties

責任表示
著者
本文言語
出版者
出版年
出版地
関連情報
概要 The research on graphite intercalation compounds often acts as a forerunner for research in other sciences. For instance, the concept of staging, which is fundamental to graphite intercalation compoun...ds, is also relevant to surface science in connection with adsorbates on metal surfaces and to high-temperature superconducting oxide layer materials. Phonon-folding and mode-splitting effects are not only basic to graphite intercalation compounds but also to polytypical systems such as supercon ductors, superlattices, and metal and semiconductor superlattices. Charge transfer effects playa tremendously important role in many areas, and they can be most easily and fundamentally studied with intercalated graphite. This list could be augmented with many more examples. The important message, however, is that graphite inter calation compounds represent a class of materials that not only can be used for testing a variety of condensed-matter concepts, but also stimulates new ideas and approaches. This volume is the second of a two-volume set. The first volume addressed the structural and dynamical aspects of graphite intercalation compounds, together with the chemistry and intercalation of new compounds. This second volume provides an up-to-date status report from expert researchers on the transport, magnetic, elec tronic and optical properties ofthis unique class of materials. The band-structure cal culations of the various donor and acceptor compounds are discussed in depth, and detailed reviews are provided ofthe experimental verification ofthe electronic struc ture in terms of their photoemission spectra and optical properties.続きを見る
目次 1. Introduction
References
2. Electronic Band Structure of Graphite Intercalation Compounds
2.1 Methods for Band Structure Calculations
2.2 Graphite
2.3 Electronic Band Structures of Low-Stage Graphite Intercalation Compounds
2.4 Electronic Band Structure of High-Stage Graphite Intercalation Compounds
2.5 Summary and Conclusions
References
3. Electron Spectroscopy of Graphite Intercalation Compounds
3.1 Essential Concepts
3.2 The Situation in the Literature
3.3 Principal Results for the Electronic Structure
3.4 Photoemission from Acceptor GICs
3.5 Summary and Conclusions
References
4. Effects of Charge Transfer on the Optical Properties of Graphite Intercalation Compounds
4.1 Experimental Considerations
4.2 Deducing Charge Transfer from Optical Studies
4.3 Experimental Results and Discussion
4.4 Summary and Conclusion
References
5. Superconductivity of Graphite Intercalation Compounds
5.1 Superconductivity of C8M (M= K, Rb, Cs)
5.2 Superconductivity of Binary Intercalants
5.3 Theoretical Aspects of the Origin of Superconductivity in GICs
References
6. Transport Properties of Metal Chloride Acceptor Graphite Intercalation Compounds
6.1 The In-Plane Electrical Resistivity
6.2 The In-Plane Thermal Conductivity
6.3 The In-Plane Thermoelectric Power
6.4 c Axis Transport and Anisotropy
6.5 Transport in Magnetic GICs
6.6 Concluding Remarks
References
7. Magnetic Intercalation Compounds of Graphite
7.1 Background
7.2 Origin of Magnetic Interactions
7.3 Experimental Techniques for Studying GICs
7.4 Overview of Magnetic GICs
7.5 Summary
References
8. Intercalation of Graphite Fibers
8.1 Precursor Graphite Fibers
8.2 Intercalation
8.3 Structure and Staging
8.4 Raman Characterization
8.5 Transport Properties
8.6 Mechanical Properties
8.7 Thermal Expansion
8.8 Applications of Intercalated Carbon Fibers
8.9. Summary and Conclusions
References.
続きを見る
本文を見る Full text available from SpringerLink ebooks - Physics and Astronomy (Archive)

詳細

レコードID
主題
SSID
eISBN
登録日 2020.06.27
更新日 2020.06.28