| Document Type
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BL
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| Record Number
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967255
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| Doc. No
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b721625
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| Main Entry
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Karamov, F. A.
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| Title & Author
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Superionic conductors : : heterostructures and elements of functional electronics based on them /\ F.A. Karamov.
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| Publication Statement
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Cambridge :: Cambridge International Science Pub.,, 2008.
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| Page. NO
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1 online resource (xvii, 212 pages) :: illustrations
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| ISBN
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1441638881
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: 1904602266
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: 1907343016
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: 9781441638885
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: 9781904602262
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: 9781907343018
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9781904602262
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| Bibliographies/Indexes
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Includes bibliographical references (pages 199-212).
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| Contents
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Contents -- Symbols and abbreviations -- Introduction -- 1. Superionic conductors -- 1.1. Types of superionic conductors -- 1.2. Superionic conductors with a constant composition -- 1.3. Properties of superionic conductors of variable composition�ion�electron conductors -- 1.4. The method of equivalent schemes in examination of relaxation processes at the electrode�superionic conductor interface -- 1.5. Impedance of heterostructures based on superionic conductors
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1.6. Physical�chemical effects in superionic conductors and structures based on them and prospects for application2. Methods for studying superionic conductors, ion�electron conductors and heterostructures based on them -- 2.1. Measurement method in the direct current regime in structures with superionic conductors -- 2.2. Measurements in the alternating current regime in structures with ionic and electronic conductivity -- 2.3. Methods of measurement of the impedance of heterostructures on the basis of superionic conductors in the infralow frequency range
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2.4. Functional electrical scheme of experimental equipment for measurement of the parameters of impedance of the infralow frequency range2.5. Main calculations relationships in the measurements of impedance parameters -- 2.6. Evaluation of measurement errors -- 2.7. Measuring system for impedance investigations of infralow frequency range -- 2.8. Technological methods of producing thin film specimens of superionic conductors -- 2.8.1. Vacuum spraying methods -- 2.8.2. Chemical method of producing films of superionic conductors -- 2.8.3. Thick film technology
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3. Properties of inverse and polarisable heterostructures based on superionic conductors and ionâ€?electron conductors3.1. Methodological problems of selecting the electrode system for impedance investigations -- 3.2. Properties of the inverse Ag/RbAg4I5 interface -- 3.3. Main properties of the electrochemical deposited silver layer in contact with the RbAgâ€?4I5 superionic conductor -- 3.4. Impedance of Ag/Î", β-AgI heterostructures -- 3.5. Impedance of the inverse heterostructure Ni/Ag2Te/RbAg4I5/Ag2Te/Ni
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3.6. Parameters of the impedance of Pt/RbAg4I5 polarizable heterostructure3.7. Experimental investigations of Au/RbAg4I5/Ag heterostructures -- 3.8. Measurements of the impedance of the Ni, Ti/RbAg4I5/Ag heterostructures -- 4. Mathematical and physical models of heterostructures based on superionic conductors -- 4.1. Synthesis of mathematical and electrical models of heterostructures with fractional-power frequency dependences of the impedance modulus on frequency � CPAE
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| Abstract
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Annotation.
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Ions-- Migration and velocity.
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Superionic conductors.
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Ions-- Migration and velocity.
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Superionic conductors.
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TECHNOLOGY ENGINEERING-- Electronics-- Semiconductors.
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TECHNOLOGY ENGINEERING-- Electronics-- Solid State.
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| Dewey Classification
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621.38152
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| LC Classification
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QC717.K37 2008eb
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