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Extended Linear Chain Compounds [electronic resource] : Volume 3 /
Linear chain substances span a large cross section of contemporary chemis try ranging from covalent polymers, organic charge transfer complexes to nonstoichiometric transition metal coordination complexes. Their common ality, which coalesced intense interest in the theoretical and experimental solid-state-physics/chemistry communities, was based on the observation that these inorganic and organic polymeric substrates exhibit striking metal-like electrical and optical properties. Exploitation and extension of these systems has led to the systematic study of both the chemistry and physics of highly and poorly conducting linear chain substances. To gain a salient understanding of these complex materials rich in anomalous anisotropic electrical, optical, magnetic, and mechanical properties, the convergence of diverse skills and talents was required. The constructive blending of traditionally segregated disciplines such as synthetic and physical organic, inorganic, and polymer chemistry, crystallography, and theoretical and experimental solid state physics has led to the timely devel opment of a truly interdisciplinary science. This is evidenced in the contri butions of this monograph series. Within the theme of Extended Linear Chain Compounds, experts in important, but varied, facets of the discipline have reflected upon the progress that has been made and have cogently summarized their field of specialty. Consequently, up-to-date reviews of numerous and varied aspects of "extended linear chain compounds" has developed. Within these volumes, numerous incisive contributions covering all aspects of the diverse linear chain substances have been summarized. I am confident that assimilation of the state-of-the-art and clairvoy ance will be rewarded with extraordinary developments in the near future.
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| Format: | Texto biblioteca |
| Language: | eng |
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Boston, MA : Springer US,
1983
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| Subjects: | Mathematics., Matrix theory., Algebra., Linear and Multilinear Algebras, Matrix Theory., |
| Online Access: | http://dx.doi.org/10.1007/978-1-4684-4175-8 |
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Mathematics. Matrix theory. Algebra. Mathematics. Linear and Multilinear Algebras, Matrix Theory. Mathematics. Matrix theory. Algebra. Mathematics. Linear and Multilinear Algebras, Matrix Theory. |
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Mathematics. Matrix theory. Algebra. Mathematics. Linear and Multilinear Algebras, Matrix Theory. Mathematics. Matrix theory. Algebra. Mathematics. Linear and Multilinear Algebras, Matrix Theory. Miller, Joel S. editor. SpringerLink (Online service) Extended Linear Chain Compounds [electronic resource] : Volume 3 / |
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Linear chain substances span a large cross section of contemporary chemis try ranging from covalent polymers, organic charge transfer complexes to nonstoichiometric transition metal coordination complexes. Their common ality, which coalesced intense interest in the theoretical and experimental solid-state-physics/chemistry communities, was based on the observation that these inorganic and organic polymeric substrates exhibit striking metal-like electrical and optical properties. Exploitation and extension of these systems has led to the systematic study of both the chemistry and physics of highly and poorly conducting linear chain substances. To gain a salient understanding of these complex materials rich in anomalous anisotropic electrical, optical, magnetic, and mechanical properties, the convergence of diverse skills and talents was required. The constructive blending of traditionally segregated disciplines such as synthetic and physical organic, inorganic, and polymer chemistry, crystallography, and theoretical and experimental solid state physics has led to the timely devel opment of a truly interdisciplinary science. This is evidenced in the contri butions of this monograph series. Within the theme of Extended Linear Chain Compounds, experts in important, but varied, facets of the discipline have reflected upon the progress that has been made and have cogently summarized their field of specialty. Consequently, up-to-date reviews of numerous and varied aspects of "extended linear chain compounds" has developed. Within these volumes, numerous incisive contributions covering all aspects of the diverse linear chain substances have been summarized. I am confident that assimilation of the state-of-the-art and clairvoy ance will be rewarded with extraordinary developments in the near future. |
| format |
Texto |
| topic_facet |
Mathematics. Matrix theory. Algebra. Mathematics. Linear and Multilinear Algebras, Matrix Theory. |
| author |
Miller, Joel S. editor. SpringerLink (Online service) |
| author_facet |
Miller, Joel S. editor. SpringerLink (Online service) |
| author_sort |
Miller, Joel S. editor. |
| title |
Extended Linear Chain Compounds [electronic resource] : Volume 3 / |
| title_short |
Extended Linear Chain Compounds [electronic resource] : Volume 3 / |
| title_full |
Extended Linear Chain Compounds [electronic resource] : Volume 3 / |
| title_fullStr |
Extended Linear Chain Compounds [electronic resource] : Volume 3 / |
| title_full_unstemmed |
Extended Linear Chain Compounds [electronic resource] : Volume 3 / |
| title_sort |
extended linear chain compounds [electronic resource] : volume 3 / |
| publisher |
Boston, MA : Springer US, |
| publishDate |
1983 |
| url |
http://dx.doi.org/10.1007/978-1-4684-4175-8 |
| work_keys_str_mv |
AT millerjoelseditor extendedlinearchaincompoundselectronicresourcevolume3 AT springerlinkonlineservice extendedlinearchaincompoundselectronicresourcevolume3 |
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1756271786459136000 |
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KOHA-OAI-TEST:2323152018-07-31T00:16:10ZExtended Linear Chain Compounds [electronic resource] : Volume 3 / Miller, Joel S. editor. SpringerLink (Online service) textBoston, MA : Springer US,1983.engLinear chain substances span a large cross section of contemporary chemis try ranging from covalent polymers, organic charge transfer complexes to nonstoichiometric transition metal coordination complexes. Their common ality, which coalesced intense interest in the theoretical and experimental solid-state-physics/chemistry communities, was based on the observation that these inorganic and organic polymeric substrates exhibit striking metal-like electrical and optical properties. Exploitation and extension of these systems has led to the systematic study of both the chemistry and physics of highly and poorly conducting linear chain substances. To gain a salient understanding of these complex materials rich in anomalous anisotropic electrical, optical, magnetic, and mechanical properties, the convergence of diverse skills and talents was required. The constructive blending of traditionally segregated disciplines such as synthetic and physical organic, inorganic, and polymer chemistry, crystallography, and theoretical and experimental solid state physics has led to the timely devel opment of a truly interdisciplinary science. This is evidenced in the contri butions of this monograph series. Within the theme of Extended Linear Chain Compounds, experts in important, but varied, facets of the discipline have reflected upon the progress that has been made and have cogently summarized their field of specialty. Consequently, up-to-date reviews of numerous and varied aspects of "extended linear chain compounds" has developed. Within these volumes, numerous incisive contributions covering all aspects of the diverse linear chain substances have been summarized. I am confident that assimilation of the state-of-the-art and clairvoy ance will be rewarded with extraordinary developments in the near future.1. The Infinite Linear Chain Compounds Hg3-? AsF6 and Hg3-?SbF6 -- 1. History and Introduction -- 2. Chemistry -- 3. Room-Temperature Structure (D Phase) -- 4. Structure-Related Properties -- 5. Electrical Resistivity -- 6. Low-Temperature Structure: Ordering of the Mercury Chains -- 7. Dynamical Properties -- 8. Superconducting Properties -- 9. Electron Properties -- 10. Summary -- Notation -- References -- 2. The Synthesis and Static Magnetic Properties of First-Row Transition-Metal Compounds with Chain Structures -- 1. Introduction -- 2. Chain Compounds of Titanium -- 3. Chain Compounds of Vanadium -- 4. Chain Compounds of Chromium -- 5. Chain Compounds of Manganese -- 6. Chain Compounds of Iron -- 7. Chain Compounds of Cobalt -- 8. Chain Compounds of Nickel -- 9. Chain Compounds of Copper -- 10. Summary -- Notation -- References -- 3. Ferromagnetism in Linear Chains -- 1. Introduction -- 2. Background -- 3. Synthetic Strategies -- 4. Magneto-Structural Correlations in Dimeric Systems -- 5. Theoretical Predictions -- 6. Recent Progress in Ferromagnetic Linear Chain Systems -- Notation -- References -- 4. Magnetic Resonance in Ion-Radical Organic Solids -- 1. Introduction -- 2. Triplet Spin Excitons: Dimerized Ion-Radical Stacks -- 3. Charge-Transfer Complexes with Mixed Regular Stacks -- 4. NMR Studies of Ion-Radical Solids -- 5. Paramagnetism of Ion-Radical Solids -- 6. Discussion -- Notation -- References -- 5. Salts of 7,7,8,8-Tetracyano-p-quinodimethane with Simple and Complex Metal Cations -- 1. Introduction -- 2. Alkali and Ammonium Salts of 7,7,8,8-Tetracyano-p-quinodimethane -- 3. 7,7,8,8-Tetracyano-q-quinodimethane Salts of Other Simple Metal Ions -- 4. 7,7,8,8-Tetracyano-p-quinodimethane Salts of Metal Complexes and Organometallic Compounds -- 5. Applications -- 6. Summary -- Notation -- References -- 6. Linear Chain 1,2-Dithiolene Complexes -- 1. Introduction -- 2. Chemistry of the 1,2-Dithiolene Ligand and Its Linear Complexes -- 3. Molecular and Electronic Structures of Metal 1,2-Dithiolene Complex Molecules -- 4. Linear Chains of Metal 1,2-Dithiolene Complex Molecules -- 5. Conclusions -- Notation -- References -- 7. The Spin-Peierls Transition -- 1. Introduction -- 2. Theory of the Spin-Peierls Transition -- 3. Experimental Systems -- 4. Conclusions and Summary -- Notation -- References -- 8. Polypyrrole: An Electrochemical Approach to Conducting Polymers -- 1. Introduction -- 2. PyrroleBlack -- 3. Electrochemical Preparation of Polypyrrole -- 4. Free-Standing Films -- 5. Electrochemical Properties of Thin Films -- 6. N-Substituted Polypyrroles -- 7. AnionVariation -- 8. Applications -- References -- 9. Compendium of Synthetic Procedures for One-Dimensional Substances -- 1. Introduction -- 2. Organic Materials -- 3. Inorganic Materials -- 4. Polymeric Materials -- References -- 10. Structural, Magnetic, and Charge Transport Properties of Stacked Metal Chelate Complexes -- 1. Introduction -- 2. Integrated Stack Crystals -- 3. Segregated Stack Crystals, Integral Oxidation State Metal Complexes -- 4. Segregated Stack Crystals, Nonintegral Oxidation State Metal Complexes -- 5. Future Directions -- References.Linear chain substances span a large cross section of contemporary chemis try ranging from covalent polymers, organic charge transfer complexes to nonstoichiometric transition metal coordination complexes. Their common ality, which coalesced intense interest in the theoretical and experimental solid-state-physics/chemistry communities, was based on the observation that these inorganic and organic polymeric substrates exhibit striking metal-like electrical and optical properties. Exploitation and extension of these systems has led to the systematic study of both the chemistry and physics of highly and poorly conducting linear chain substances. To gain a salient understanding of these complex materials rich in anomalous anisotropic electrical, optical, magnetic, and mechanical properties, the convergence of diverse skills and talents was required. The constructive blending of traditionally segregated disciplines such as synthetic and physical organic, inorganic, and polymer chemistry, crystallography, and theoretical and experimental solid state physics has led to the timely devel opment of a truly interdisciplinary science. This is evidenced in the contri butions of this monograph series. Within the theme of Extended Linear Chain Compounds, experts in important, but varied, facets of the discipline have reflected upon the progress that has been made and have cogently summarized their field of specialty. Consequently, up-to-date reviews of numerous and varied aspects of "extended linear chain compounds" has developed. Within these volumes, numerous incisive contributions covering all aspects of the diverse linear chain substances have been summarized. I am confident that assimilation of the state-of-the-art and clairvoy ance will be rewarded with extraordinary developments in the near future.Mathematics.Matrix theory.Algebra.Mathematics.Linear and Multilinear Algebras, Matrix Theory.Springer eBookshttp://dx.doi.org/10.1007/978-1-4684-4175-8URN:ISBN:9781468441758 |