Concepts and methods
Author(s)
Bibliographic Information
Concepts and methods
(Surface and interface science / edited by Klaus Wandelt, v. 1)
Wiley-VCH, c2012
Available at / 12 libraries
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The Institute for Solid State Physics Library. The University of Tokyo.図書室
428.7:S46:17210334012
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Note
Includes bibliographical references
Description and Table of Contents
Description
Covering interface science from a novel surface science perspective, this unique handbook offers a comprehensive overview of this burgeoning field.
Eight topical volumes cover basic concepts and methods, elemental and composite surfaces, solid-gas, solid-liquid and inorganic biological interfaces, as well as applications of surface science in nanotechnology, materials science and molecular electronics.
With its broad scope and clear structure, it is ideal as a reference for scientists in the field, as well as an introduction for newcomers.
Table of Contents
VOLUME 1
I. Introduction: Intuitive approach to surface science (Klaus Wandelt)
II. Introduction to the theory of metal surfaces (Angelos Michaelidis and Matthias Scheffler)
III. Experimental surface methods
1. Experimental basics (Marko Kralj and Klaus Wandelt)
2. Electron based methods
2.1 Low energy electron diffraction (Klaus Heinz)
2.2 Photoelectron Spectroscopy and Diffraction (Jurg Osterwalder)
2.3 Electron spectroscopy data bases, standardization (Cedric Powell and Alexander Jablonski)
2.4 Two-photon photoelectron spectroscopy (Thomas Fauster)
3. Ion beam methods (John O'Connor)
4. Photon based methods
4.1 Photon spectroscopies (Steve D. Barrett, Chris Lucas and Rasmita Raval)
4.2 X-ray diffraction (Elias Vlieg)
5. Scanning probe techniques (Angelika Kuhnle and Michael Reichling)
VOLUME 2
I. Surface crystallography (Klaus Heinz and Ulrich Starke)
II. Electronic structure of metal surfaces (Erminald Bertel, Norbert Memmel and Alexander Menzel)
III. Electron dynamics at surfaces (Thomas Fauster, Pedro Miguel Echenique, and E.V. Chulkov)
IV. Surface magnetism Jurgen Kirschner and Marek Przybylski)
V. Dynamics at surfaces
1. Thermal dynamics at surfaces (Harald Brune)
2. Vibrations at surfaces (Wolf Widdra)
VI. Elemental semiconductor surfaces (Michael Horn-von-Hoegen, Frank-J. Meyer zu Heringdorf and Peter Kury)
VII. Diamond surfaces (Lothar Ley and Jurgen Ristein)
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