ISBN: 9783709113172
This is the first book to comprehensively address the recent developments in both the experimental and theoretical aspects of quasi-one-dimensional halogen-bridged mono- (MX) and binuclea… Mehr…
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2012, ISBN: 9783709113172
This is the first book to comprehensively address the recent developments in both the experimental and theoretical aspects of quasi-one-dimensional halogen-bridged mono- (MX) and binuclea… Mehr…
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ISBN: 9783709113172
This is the first book to comprehensively address the recent developments in both the experimental and theoretical aspects of quasi-one-dimensional halogen-bridged mono- (MX) and binuclea… Mehr…
Hiroshi Okamoto, Masahiro Yamashita:
Material Designs and New Physical Properties in MX- and MMX-Chain Compounds - neues Buch2012, ISBN: 9783709113172
This is the first book to comprehensively address the recent developments in both the experimental and theoretical aspects of quasi-one-dimensional halogen-bridged mono- (MX) and binuclea… Mehr…
2012
ISBN: 9783709113172
eBooks, eBook Download (PDF), Auflage, [PU: Springer-Verlag], [ED: 1], Springer-Verlag, 2012
2012, ISBN: 9783709113172
eBooks, eBook Download (PDF), 2013, [PU: Springer Wien], Springer Wien, 2012
2012, ISBN: 9783709113172
2013, eBook Download (PDF), eBooks, [PU: Springer Wien]
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Detailangaben zum Buch - Material Designs and New Physical Properties in MX- and MMX-Chain Compounds
EAN (ISBN-13): 9783709113172
Erscheinungsjahr: 2013
Herausgeber: Springer Wien
Buch in der Datenbank seit 2007-11-14T20:29:33+01:00 (Berlin)
Detailseite zuletzt geändert am 2023-06-24T16:01:19+02:00 (Berlin)
ISBN/EAN: 9783709113172
ISBN - alternative Schreibweisen:
978-3-7091-1317-2
Alternative Schreibweisen und verwandte Suchbegriffe:
Autor des Buches: hiro, yamashita, hiroshi okamoto, masahiro
Titel des Buches: physica
Daten vom Verlag:
Autor/in: Masahiro Yamashita; Hiroshi Okamoto
Titel: Material Designs and New Physical Properties in MX- and MMX-Chain Compounds
Verlag: Springer; Springer Wien
270 Seiten
Erscheinungsjahr: 2012-12-13
Vienna
Sprache: Englisch
96,29 € (DE)
96,29 € (AT)
118,00 CHF (CH)
Available
X, 270 p.
EA; E107; eBook; Nonbooks, PBS / Chemie/Organische Chemie; Metallorganische Chemie; Verstehen; Halogen bridged; MMX compounds; MX compounds; mixed valence; B; Organometallic Chemistry; Optical Materials; Medicinal Chemistry; Inorganic Chemistry; Chemistry and Materials Science; Technische Anwendung von elektronischen, magnetischen, optischen Materialien; Medizinische Chemie, Pharmazeutische Chemie; Anorganische Chemie; BC
This is the first book to comprehensively address the recent developments in both the experimental and theoretical aspects of quasi-one-dimensional halogen-bridged mono- (MX) and binuclear metal (MMX) chain complexes of Pt, Pd and Ni. These complexes have one-dimensional electronic structures, which cause the various physical properties as well as electronic structures. In most MX-chain complexes, the Pt and Pd units are in M(II)-M(IV) mixed valence or charge density wave (CDW) states due to electron-phonon interactions, and Ni compounds are in Ni(III) averaged valence or Mott-Hubbard states due to the on-site Coulomb repulsion. More recently, Pd(III) Mott-Hubbard (MH) states have been realized in the ground state by using the chemical pressure. Pt and Pd chain complexes undergo photo-induced phase transitions from CDW to MH or metal states, and Ni chain complexes undergo photo-induced phase transitions from MH to metal states. Ni chain complexes with strong electron correlations show tremendous third-order optical nonlinearity and nonlinear electrical conductivities. They can be explained theoretically by using the extended Peierls-Hubbard model. For MMX-chain complexes, averaged valence, CDW, charge polarization, and alternating charge polarization states have been realized by using chemical modification and external stimuli, such as temperature, photo-irradiation, pressure, and water vapor. All of the electronic structures and phase transitions can be explained theoretically.
S. Takaishi and M. Yamashita H. Matsuzaki and H. Okamoto S. Takaishi and M. Yamashita S. Takaishi and M. Yamashita H. Matsuzaki and H. Okamoto H. Kishida and A. Nakamura H. Kishida and H. Okamoto K. Iwano M. Mitsumi H. Iguchi, S. Takaishi and M. Yamashita H. Matsuzaki and H. Okamoto K. Yonemitsu.This is the first book to comprehensively address the recent developments in both the experimental and theoretical aspects of quasi-one-dimensional halogen-bridged mono- (MX) and binuclear metal (MMX) chain complexes of Pt, Pd and Ni. These complexes have one-dimensional electronic structures, which cause the various physical properties as well as electronic structures. In most MX-chain complexes, the Pt and Pd units are in M(II)-M(IV) mixed valence or charge density wave (CDW) states due to electron-phonon interactions, and Ni compounds are in Ni(III) averaged valence or Mott-Hubbard states due to the on-site Coulomb repulsion. More recently, Pd(III) Mott-Hubbard (MH) states have been realized in the ground state by using the chemical pressure. Pt and Pd chain complexes undergo photo-induced phase transitions from CDW to MH or metal states, and Ni chain complexes undergo photo-induced phase transitions from MH to metal states. Ni chain complexes with strong electron correlations show tremendous third-order optical nonlinearity and nonlinear electrical conductivities. They can be explained theoretically by using the extended Peierls-Hubbard model. For MMX-chain complexes, averaged valence, CDW, charge polarization, and alternating charge polarization states have been realized by using chemical modification and external stimuli, such as temperature, photo-irradiation, pressure, and water vapor. All of the electronic structures and phase transitions can be explained theoretically.
Low-dimensional semiconductors with exciting optical properties are extensively discussed Physical properties arising from quasi-one-dimensional electronic systems are covered Various photoinduced phase transitions and their dynamics are presented Includes supplementary material: sn.pub/extras
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