Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials:
In recent interactions with industrial companies it became quite obvious, that the search for new materials with strong anisotropic properties are of paramount importance for the development of new advanced electronic and magnetic devices. The questions concerning the tailoring of materials with lar...
Gespeichert in:
| Weitere Verfasser: | , , , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Dordrecht
Springer Netherlands
2001
|
| Schriftenreihe: | NATO Science Series, Series II: Mathematics, Physics and Chemistry
48 |
| Schlagworte: | |
| Online-Zugang: | UBT01 Volltext |
| Zusammenfassung: | In recent interactions with industrial companies it became quite obvious, that the search for new materials with strong anisotropic properties are of paramount importance for the development of new advanced electronic and magnetic devices. The questions concerning the tailoring of materials with large anisotropic electrical and thermal conductivity were asked over and over again. It became also quite clear that the chance to answer these questions and to find new materials which have these desired properties would demand close collaborations between scientists from different fields. Modem techniques ofcontrolled materials synthesis and advances in measurement and modeling have made clear that multiscale complexity is intrinsic to complex electronic materials, both organic and inorganic. A unified approach to classes of these materials is urgently needed, requiring interdisciplinary input from chemistry, materials science, and solid state physics. Only in this way can they be controlled and exploited for increasingly stringent demands oftechnology. The spatial and temporal complexity is driven by strong, often competing couplings between spin, charge and lattice degrees offreedom, which determine structure-function relationships. The nature of these couplings is a sensitive function of electron-electron, electron-lattice, and spin-lattice interactions; noise and disorder, external fields (magnetic, optical, pressure, etc. ), and dimensionality. In particular, these physical influences control broken-symmetry ground states (charge and spin ordered, ferroelectric, superconducting), metal-insulator transitions, and excitations with respect to broken-symmetries created by chemical- or photo-doping, especially in the form of polaronic or excitonic self-trapping |
| Beschreibung: | 1 Online-Ressource (XXI, 557 p. 80 illus) |
| ISBN: | 9789401005203 |
| DOI: | 10.1007/978-94-010-0520-3 |
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| 520 | |a In recent interactions with industrial companies it became quite obvious, that the search for new materials with strong anisotropic properties are of paramount importance for the development of new advanced electronic and magnetic devices. The questions concerning the tailoring of materials with large anisotropic electrical and thermal conductivity were asked over and over again. It became also quite clear that the chance to answer these questions and to find new materials which have these desired properties would demand close collaborations between scientists from different fields. Modem techniques ofcontrolled materials synthesis and advances in measurement and modeling have made clear that multiscale complexity is intrinsic to complex electronic materials, both organic and inorganic. A unified approach to classes of these materials is urgently needed, requiring interdisciplinary input from chemistry, materials science, and solid state physics. Only in this way can they be controlled and exploited for increasingly stringent demands oftechnology. The spatial and temporal complexity is driven by strong, often competing couplings between spin, charge and lattice degrees offreedom, which determine structure-function relationships. The nature of these couplings is a sensitive function of electron-electron, electron-lattice, and spin-lattice interactions; noise and disorder, external fields (magnetic, optical, pressure, etc. ), and dimensionality. In particular, these physical influences control broken-symmetry ground states (charge and spin ordered, ferroelectric, superconducting), metal-insulator transitions, and excitations with respect to broken-symmetries created by chemical- or photo-doping, especially in the form of polaronic or excitonic self-trapping | ||
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| language | English |
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| spelling | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials edited by Hans D. Hochheimer, Bogdan Kuchta, Peter K. Dorhout, Jeffery L. Yarger Proceedings of the NATO Advanced Research Workshop, Pingree Park, CO, USA, from 10-15 June 2001 Dordrecht Springer Netherlands 2001 1 Online-Ressource (XXI, 557 p. 80 illus) txt rdacontent c rdamedia cr rdacarrier NATO Science Series, Series II: Mathematics, Physics and Chemistry 48 In recent interactions with industrial companies it became quite obvious, that the search for new materials with strong anisotropic properties are of paramount importance for the development of new advanced electronic and magnetic devices. The questions concerning the tailoring of materials with large anisotropic electrical and thermal conductivity were asked over and over again. It became also quite clear that the chance to answer these questions and to find new materials which have these desired properties would demand close collaborations between scientists from different fields. Modem techniques ofcontrolled materials synthesis and advances in measurement and modeling have made clear that multiscale complexity is intrinsic to complex electronic materials, both organic and inorganic. A unified approach to classes of these materials is urgently needed, requiring interdisciplinary input from chemistry, materials science, and solid state physics. Only in this way can they be controlled and exploited for increasingly stringent demands oftechnology. The spatial and temporal complexity is driven by strong, often competing couplings between spin, charge and lattice degrees offreedom, which determine structure-function relationships. The nature of these couplings is a sensitive function of electron-electron, electron-lattice, and spin-lattice interactions; noise and disorder, external fields (magnetic, optical, pressure, etc. ), and dimensionality. In particular, these physical influences control broken-symmetry ground states (charge and spin ordered, ferroelectric, superconducting), metal-insulator transitions, and excitations with respect to broken-symmetries created by chemical- or photo-doping, especially in the form of polaronic or excitonic self-trapping Chemistry Inorganic Chemistry Condensed Matter Physics Organic Chemistry Inorganic chemistry Organic chemistry Condensed matter Hochheimer, Hans D. edt Kuchta, Bogdan edt Dorhout, Peter K. edt Yarger, Jeffery L. edt Erscheint auch als Druck-Ausgabe 9781402001604 https://doi.org/10.1007/978-94-010-0520-3 Verlag URL des Erstveröffentlichers Volltext |
| spellingShingle | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials Chemistry Inorganic Chemistry Condensed Matter Physics Organic Chemistry Inorganic chemistry Organic chemistry Condensed matter |
| title | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials |
| title_alt | Proceedings of the NATO Advanced Research Workshop, Pingree Park, CO, USA, from 10-15 June 2001 |
| title_auth | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials |
| title_exact_search | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials |
| title_full | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials edited by Hans D. Hochheimer, Bogdan Kuchta, Peter K. Dorhout, Jeffery L. Yarger |
| title_fullStr | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials edited by Hans D. Hochheimer, Bogdan Kuchta, Peter K. Dorhout, Jeffery L. Yarger |
| title_full_unstemmed | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials edited by Hans D. Hochheimer, Bogdan Kuchta, Peter K. Dorhout, Jeffery L. Yarger |
| title_short | Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials |
| title_sort | frontiers of high pressure research ii application of high pressure to low dimensional novel electronic materials |
| topic | Chemistry Inorganic Chemistry Condensed Matter Physics Organic Chemistry Inorganic chemistry Organic chemistry Condensed matter |
| topic_facet | Chemistry Inorganic Chemistry Condensed Matter Physics Organic Chemistry Inorganic chemistry Organic chemistry Condensed matter |
| url | https://doi.org/10.1007/978-94-010-0520-3 |
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