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Functional Metal Oxides: New Science and Novel Applications

by

Functional Metal Oxides: New Science and Novel Applications Cover

 

Synopses & Reviews

Publisher Comments:

Functional oxides are used both as insulators and metallic conductors in key applications across all industrial sectors. This makes them attractive candidates in modern technology – they make solar cells cheaper, computers more efficient and medical instrumentation more sensitive. Based on recent research, experts in the field describe novel materials, their properties and applications for energy systems, semiconductors, electronics, catalysts and thin films.

This monograph is divided into 6 parts which allows the reader to find their topic of interest
quickly and efficiently.

• Magnetic Oxides

• Dopants, Defects and Ferromagnetism in Metal Oxides

• Ferroelectrics

• Multiferroics

• Interfaces and Magnetism

• Devices and Applications

This book is a valuable asset to materials scientists, solid state chemists, solid state physicists, as well as engineers in the electric and automotive industries.

Synopsis:

This forward-looking title focuses on the key innovations for industrial growth areas for functional metal oxides: energy technology, semiconductors, electronics, and automotive.

Bridging the gap between basic science and technological applications, the book covers the full range of topics in the field of advanced metal oxide science and technology such as metallic, semiconducting, insulating, ferromagnetic, superconducting, ferroelectric, and multiferroic metal oxide systems and their engineered interface systems.  It emphasizes many of the modern applications of metal oxides in solar cells, batteries, catalysis and for resistive switches. Chapters about the growth and processing of oxidic thin films and nanomaterials round the topic out.

About the Author

Professor Satischandra Ogale is a senior scientist at the National Chemistry Laboratory in Pune (India) and a Professor of Physical Sciences at the ACSIR in New Delhi. After obtaining his academic degrees from the University of Poona, he spent 9 years as senior researcher at the University of Maryland (USA). Dr. Ogale has authored more than 330 research publications and one book.

Professor Venky Venkatesan directs the NanoCore Research Center at the National University of Singapore. He holds a PhD from the University of New York and Bell Laboratories (USA) and an MSc and a BSc degree from the Indian Institute of Technology in Kanpur (India). Prior to taking up his current appointment, he has been a Physicist and manager with Bell Labs and Bellcore and with the Center for Superconductivity Research at the University of Maryland, College Park. He also founded the Surface Center at Rutgers University where he was a Professor from 1985 to 1990.

Professor Mark Blamire heads the Device Materials group at the University of Cambridge (UK). His research is based on the study of novel materials or new materials combinations for potential device applications. These materials include metals, oxides, nitrides with properties which include superconductivity, magnetism and ferroelectricity.

Table of Contents

MAGNETIC OXIDES

Magnetic Oxides (Broad Perspective)

Magnetic Oxides for Spintronics

DILUTED MAGNETIC SEMICONDUCTOR OXIDES

DEFECT FERROMAGNETSM IN OXIDE FILMS

FERROELECTIRCS

Ferroelectrics (Experiments)

Multiferroics (Theory)

SUPERCONDUCTING OXIDES

Road to Higher Tc Superconductors

Superconductor/Ferromagnet Interfaces

OXIDE-OXIDE INTERFACES

Oxide-Oxide Interfaces (Experiments)

Oxide-Oxide Interfaces (Theory)

OXIDE INTERFACES FOR TOPOLOGICAL INSULATORS

ELECTRIC FIELD EFFECTS IN OXIDES

APPLICATIONS

Oxide Nanomaterial Based Solar Cells

Oxide Nanomaterials for Catalysis/Photocatalysis

Resistive Switching in Oxides

Metal Oxides for Battery Applications

MATERIALS GROWTH AND PROCESSING

Advances in the Growth of Oxide Thin Films

Nanomaterials Growth Issues

Product Details

ISBN:
9783527331796
Author:
Ogale, Satishchandra B. (edt)
Publisher:
Wiley-Vch
Author:
Ogale, Satishchandra Balkrishna
Author:
rishna
Author:
Venkatesan, T. Venky
Author:
Ogale, Satishchandra Balk
Author:
Blamire, Mark
Subject:
Material Science
Subject:
Materials for Energy Systems
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
Materials Science-General
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Subject:
metal oxide science, metal oxide technology, metal oxide solar cells, metal oxide batteries, metal oxide systems, metal oxide catalysis, resistive switches, oxidic thin films, nanomaterials, metal oxide applications, metal oxide technologies
Copyright:
Edition Description:
WOL online Book (not BRO)
Publication Date:
20130805
Binding:
HARDCOVER
Language:
English
Pages:
498
Dimensions:
250 x 1 x 1 mm 24 oz

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Functional Metal Oxides: New Science and Novel Applications New Hardcover
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Product details 498 pages Wiley-VCH Verlag GmbH - English 9783527331796 Reviews:
"Synopsis" by , This forward-looking title focuses on the key innovations for industrial growth areas for functional metal oxides: energy technology, semiconductors, electronics, and automotive.

Bridging the gap between basic science and technological applications, the book covers the full range of topics in the field of advanced metal oxide science and technology such as metallic, semiconducting, insulating, ferromagnetic, superconducting, ferroelectric, and multiferroic metal oxide systems and their engineered interface systems.  It emphasizes many of the modern applications of metal oxides in solar cells, batteries, catalysis and for resistive switches. Chapters about the growth and processing of oxidic thin films and nanomaterials round the topic out.

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