High-Pressure Crystallography
From Fundamental Phenomena to Technological Applications
(Sprache: Englisch)
This unique book is devoted to the theme of crystallographic studies at high pressure. It places emphasis on the phenomena characteristic to the compressed state of matter, as well as experimental and theoretical techniques, used to study these phenomena.
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This unique book is devoted to the theme of crystallographic studies at high pressure. It places emphasis on the phenomena characteristic to the compressed state of matter, as well as experimental and theoretical techniques, used to study these phenomena.
Klappentext zu „High-Pressure Crystallography “
This book is devoted to the theme of crystallographic studies at high pressure, with emphasis on the phenomena characteristic to the compressed state of matter, as well as experimental and theoretical techniques used to study these phenomena. As a thermodynamic parameter, pressure is remarkable in many ways. In the visible universe its value spans over sixty orders of magnitude, from the non-equilibrium pressure of hydrogen in intergalactic space, to the kind of pressure encountered within neutron stars. In the laboratory, it provides the unique possibility to control the structure and properties of materials, to dramatically alter electronic properties, and to break existing, or form new chemical bonds. This agenda naturally encompasses elements of physics (properties, structure and transformations), chemistry (reactions, transport), materials science (new materials) and engineering (mechanical properties); in addition it has direct applications and implications for geology (minerals in deep Earth environments), planetary sciences, biology and medicine.
This book is devoted to the theme of crystallographic studies at high pressure, with emphasis on the phenomena characteristic to the compressed state of matter, as well as experimental and theoretical techniques, used to study these phenomena. As a thermodynamic parameter, pressure is remarkable in many ways. It spans in the visible universe over sixty orders of magnitude, from the non-equilibrium pressure of hydrogen in intergalactic space, to the kind of pressure encountered within neutron stars. In laboratory, it provides unique possibility to control structure and properties of materials, dramatically alter electronic properties, break existing, or form new chemical bonds. This agenda naturally encompasses elements of physics (properties, structure and transformations), chemistry (reactions, transport), materials science (new materials) and engineering (mechanical properties); in addition it has direct applications and implications for geology (minerals in deep Earth environments), planetary sciences, biology and medicine (deep sea ecosystems, membranes, protein and nucleic acid folding, origins of life, deactivation of viruses and toxins). Beyond its specificity, high-pressure science finds direct or indirect (e.g. economic) applications in several fields of modern technology, such as mechanical engineering, optoelectronics and spintronics, nanotechnology, pharmaceutical industry and food processing.
Inhaltsverzeichnis zu „High-Pressure Crystallography “
Preface.- Introduction to high pressure science; P. Dera.- Single crystal synchrotron techniques; P. Dera.- Synchrotron high-pressure high-temperature techniques; M. Mezouar.- Mineral physics of Earth core: iron alloys at extreme condition; L. Dubrovinsky et al.- Synchrotron-based spectroscopic techniques: Mössbauer and high-resolution inelastic scattering; J.M.Jackson.- High-pressure x-ray absorption spectroscopy: application to the local aspects of phase transitions in ferroelectric perovskites; J.-P.Itie et al.- Present-day high-intensity and high-resolution neutron diffraction and neutron scattering under high pressure; A.M.Balagurov.- Large volume presses for high-pressure studies using synchrotron radiation; Y.Wang.- Rheology at high pressures and high temperatures; Y.Wang, N.Hilairet.- Radial diffraction in the diamond anvil cell: methods and applications; S.Merkel.- Reduction and analysis of two-dimensional diffraction data including texture analysis; S.Vogel.- Equations of state and their applications in geosciences; T.Boffa Ballaran.- Anisotropic compression. What can it teach us about intermolecular interactions?; E.Boldyreva.- High-pressure structural evolution of molecular crystals; N.Casati.- Introduction into the theory of phase transitions; V.Dmitriev.- Phase transitions in AB systems. Symmetry aspects; H.Sowa.- The charm of subtle H-bonds transformations; A.Katrusiak.- Carrier bandwidth physical phenomena in strongly correlated magnetic oxides. Lessons from neutron diffraction at high pressures; D.P.Kozlenko.- Jahn-Teller systems at high pressure; F.Rodriguez.- Effect of spin transitions in iron on structure and properties of mantle minerals; L.Dubrovinsky et al.- Boron and boron-rich solids at high pressures; A.Polian et al.- Non-molecular carbon dioxide at high pressure; M. Santoro.- Simple metals at high pressures; O.Degtyareva.- Light metal hydrides under non-ambient conditions: probing chemistry by diffraction? ; Y.Filinchuk.-
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Evolutionarycrystal structure prediction and novel high-pressure phases; A.R.Oganov et al.- Ab initio quantum chemistry and semi-empirical description of solid state phases under high pressure: Chemical applications; P.Macchi.- First-principles simulations of alloy thermodynamics in megabar pressure range; I.A.Abrikosov.- First-principles molecular dynamics and applications in planetary science; S.Scandolo.- Molecular orbital approach to interpret high pressure phenomena - case of elusive gold monofluoride; W.Grochala, D. Kurzyd?owski.- High-pressure synthesis of materials; P.F.McMillan.- High-pressure synthesis of novel superhard phases in the B-C-N-O system; V.Solozhenko.- Synthesis and structure-property relations of binary transition metal carbides at extreme conditions; B.Winkler et al.- High pressure and superconductivity: intercalated graphite CaC6 as a model system; A.Gauzzi et al.- Structure-property relationships in novel high-pressure superhard materials; N.Dubrovinkaia, L.Dubrovinsky.- Carbon nanotubes under high pressure probed by resonance Raman scattering; A.San-Miguel et al.- High-pressure studies of energetic materials; C.Pulham et al.- Amorphous materials at high pressure; C.Sanloup.- Amorphous x-ray diffraction at high pressire: polyamorphic silicon and amyloid fibrils; P.F.McMillan et al.- Microporous materials at high-pressure: are they really soft?; G.D.Gatta.- Hydrogen bonding in minerals at high pressures; B.Winkler.- Nanomaterials at high pressure: spectroscopy and diffraction techniques; G.R.Hearne.- Analysis of the total scattering using the quantitative high pressure pair distribution function: practical considerations; J.B.Parise et al.- Analysis of the total scattering using the quantitative high pressure pair distribution function: case studies; L.Ehm et al.- High-pressure studies of pharmaceuticals & biomimetics. Fundamentals and applications. A general introduction; E.Boldyreva .- New frontiers in physical form discovery:
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Bibliographische Angaben
- 2010, 612 Seiten, Maße: 16,3 x 24,1 cm, Gebunden, Englisch
- Herausgegeben:Dera, Przemyslaw; Boldyreva, Elena
- Herausgegeben: Elena Boldyreva, Przemyslaw Dera
- Verlag: Springer Netherlands
- ISBN-10: 9048192579
- ISBN-13: 9789048192571
Sprache:
Englisch
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