Details
Computer-Based Modeling of Novel Carbon Systems and Their Properties
Beyond NanotubesCarbon Materials: Chemistry and Physics, Band 3
96,29 € |
|
Verlag: | Springer |
Format: | |
Veröffentl.: | 05.08.2010 |
ISBN/EAN: | 9781402097188 |
Sprache: | englisch |
Anzahl Seiten: | 250 |
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Beschreibungen
<p>During the last twenty years, the multiplicity of potential carbon structures has consistently posed a formidable challenge to theoretical and computational physicists. Several different methods are currently being used to study the structure and the properties of such systems. These methods include simulations based on empirical potentials, tight-binding calculations and density functional theory (DFT). A combination of these methods is needed to make significant progress in the carbon field.</p><p>This volume provides the reader with a survey of state-of-the-art theoretical and computational contributions featuring novel carbon systems (excluding nanotubes). The chapters are authored by leading researchers who are all actively involved with different aspects of carbon structure and property elucidation. Consequently, a variety of methods are presented to the reader. The editors have successfully compiled an informative book that:</p><p>• Showcases the latest results in carbon materials <br>• Demonstrates how different theoretical methods are combined <br>• Explains how new carbon structures are predicted </p><p><i>Computer-Based Modeling of Novel Carbon Systems and Their Properties</i> is aimed at advanced undergraduates, graduates, and researchers with an interest in computational nanomaterials.</p>
Liquid Carbon: Freezing Line and Structure Near Freezing.- Structure, Stability and Electronic Properties of Nanodiamonds.- Hexagon Preserving Carbon Nanofoams.- Simulations of the Structural and Chemical Properties of Nanoporous Carbon.- Amorphous Carbon and Related Materials.- Structural, Mechanical, and Superconducting Properties of Clathrates.- Exotic Carbon Phases: Structure and Properties.
<p>During the last twenty years, the multiplicity of potential carbon structures has consistently posed a formidable challenge to theoretical and computational physicists. Several different methods are currently being used to study the structure and the properties of such systems. These methods include simulations based on empirical potentials, tight-binding calculations and density functional theory (DFT). A combination of these methods is needed to make significant progress in the carbon field.</p>
<p>This volume provides the reader with a survey of state-of-the-art theoretical and computational contributions featuring novel carbon systems (excluding nanotubes). The chapters are authored by leading researchers who are all actively involved with different aspects of carbon structure and property elucidation. Consequently, a variety of methods are presented to the reader. The editors have successfully compiled an informative book that:</p>
<li>showcases the latest results in carbon materials</li>
<li>demonstrates how different theoretical methods are combined</li>
<li>explains how new carbon structures are predicted</li>
<p><i>Computer-Based Modeling of Novel Carbon Systems and Their Properties</i> is aimed at advanced undergraduates, graduates, and researchers with an interest in computational nanomaterials.</p>
<p>This volume provides the reader with a survey of state-of-the-art theoretical and computational contributions featuring novel carbon systems (excluding nanotubes). The chapters are authored by leading researchers who are all actively involved with different aspects of carbon structure and property elucidation. Consequently, a variety of methods are presented to the reader. The editors have successfully compiled an informative book that:</p>
<li>showcases the latest results in carbon materials</li>
<li>demonstrates how different theoretical methods are combined</li>
<li>explains how new carbon structures are predicted</li>
<p><i>Computer-Based Modeling of Novel Carbon Systems and Their Properties</i> is aimed at advanced undergraduates, graduates, and researchers with an interest in computational nanomaterials.</p>
Presents a unique survey of the theoretical modeling of all phases of carbon Explores the computational challenges posed by the complex bonding in carbon Reports the recent and controversial theories e.g. the occurrence of magnetism Provides a basis towards a unified theoretical description of carbon Valuable for the whole community of computational condensed matter physicists Includes supplementary material: sn.pub/extras