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This book commemorates the "Nobel Laureate Professor Suzuki Special
Symposium" at the International Union of Material Research
Society-International Conference on Advanced Materials
(IUMRS-ICAM2017), which was held at Kyoto University, Japan, in
2017. The book begins with a foreword by Professor Akira Suzuki.
Subsequently, many authors who attended the special symposium
describe the latest scientific advances in the field of carbon
materials and carbon nanomaterials including polymers, carbon
nanocomposites, and graphene. Carbon-based materials have recently
been the focus of considerable attention, given their wide range of
potential applications. Fittingly, the chapters in this book cover
both experimental and theoretical approaches in several categories
of carbon-related materials.
This book will give a detailed description of different carbon
based materials synthesis methods, characterization, and
applications. It serves as a fundamental information source on the
actual techniques and methodologies involved in carbon materials
synthesis, such as CVD, plasma in liquids, fusion reactors, or
frequency-doubled yttrium-aluminum- garnet (YAG) lasers. This book
includes coverage of several categories of carbon materials, such
as graphene, carbon fiber composites, functionalized carbons, and
polyimides used for various applications, from microelectronic
industry to slotted waveguide antennas.
This book commemorates the "Nobel Laureate Professor Suzuki Special
Symposium" at the International Union of Material Research
Society-International Conference on Advanced Materials
(IUMRS-ICAM2017), which was held at Kyoto University, Japan, in
2017. The book begins with a foreword by Professor Akira Suzuki.
Subsequently, many authors who attended the special symposium
describe the latest scientific advances in the field of carbon
materials and carbon nanomaterials including polymers, carbon
nanocomposites, and graphene. Carbon-based materials have recently
been the focus of considerable attention, given their wide range of
potential applications. Fittingly, the chapters in this book cover
both experimental and theoretical approaches in several categories
of carbon-related materials.
This book provides readers with a comprehensive overview of the
science of superconducting materials. It serves as a fundamental
information source on the actual techniques and methodologies
involved in superconducting materials growth, characterization and
processing. This book includes coverage of several categories of
medium and high-temperature superconducting materials: cuprate
oxides, borides, and iron-based chalcogenides and pnictides.
Provides a single-source reference on superconducting materials
growth, characterization and processing; Bridges the gap between
materials science and applications of superconductors; Discusses
several categories of superconducting materials such as cuprate
oxides, borides, and iron-based chalcogenides and pnictides; Covers
synthesis, characterization, and processing of superconducting
materials, as well as the nanoengineering approach to tailor the
properties of the used materials at the nanoscale level.
This book provides readers with a comprehensive overview of the
science of superconducting materials. It serves as a fundamental
information source on the actual techniques and methodologies
involved in superconducting materials growth, characterization and
processing. This book includes coverage of several categories of
medium and high-temperature superconducting materials: cuprate
oxides, borides, and iron-based chalcogenides and pnictides.
Provides a single-source reference on superconducting materials
growth, characterization and processing; Bridges the gap between
materials science and applications of superconductors; Discusses
several categories of superconducting materials such as cuprate
oxides, borides, and iron-based chalcogenides and pnictides; Covers
synthesis, characterization, and processing of superconducting
materials, as well as the nanoengineering approach to tailor the
properties of the used materials at the nanoscale level.
This book will provide readers with deep insight into the
intriguing science of thermoelectric thin films. It serves as a
fundamental information source on the techniques and methodologies
involved in thermoelectric thin film growth, characterization and
device processing. This book involves widespread contributions on
several categories of thermoelectric thin films: oxides,
chalcogenides, iodates, nitrides and polymers. This will serve as
an invaluable resource for experts to consolidate their knowledge
and will provide insight and inspiration to beginners wishing to
learn about thermoelectric thin films. Provides a single-source
reference on a wide spectrum of topics related to thermoelectric
thin films, from organic chemistry to devices, from physical
chemistry to applied physics, from synthesis to device
implementation; Covers several categories of thermoelectric thin
films based on different material approaches such as oxides,
chalcogenides, iodates, nitrides and polymers; Discusses synthesis,
characterization, and device processing of thermoelectric thin
films, as well as the nanoengineering approach to tailor the
properties of the used materials at the nanoscale level.
This book introduces a variety of basic sciences and applications
of the nanocomposites and heterostructures of functional oxides.
The presence of a high density of interfaces and the differences in
their natures are described by the authors. Both nanocomposites and
heterostructures are detailed in depth by researchers from each of
the research areas in order to compare their similarities and
differences. A new interfacial material of heterostructure of
strongly correlated electron systems is introduced.
This book introduces a variety of basic sciences and applications
of the nanocomposites and heterostructures of functional oxides.
The presence of a high density of interfaces and the differences in
their natures are described by the authors. Both nanocomposites and
heterostructures are detailed in depth by researchers from each of
the research areas in order to compare their similarities and
differences. A new interfacial material of heterostructure of
strongly correlated electron systems is introduced.
This book provides a comprehensive overview of the science of
nanostructured oxides. It details the fundamental techniques and
methodologies involved in oxides thin film and bulk growth,
characterization and device processing, as well as
heterostructures. Both, experts in oxide nanostructures and experts
in thin film heteroepitaxy, contribute the interactions described
within this book.
This book will give a detailed description of different carbon
based materials synthesis methods, characterization, and
applications. It serves as a fundamental information source on the
actual techniques and methodologies involved in carbon materials
synthesis, such as CVD, plasma in liquids, fusion reactors, or
frequency-doubled yttrium-aluminum- garnet (YAG) lasers. This book
includes coverage of several categories of carbon materials, such
as graphene, carbon fiber composites, functionalized carbons, and
polyimides used for various applications, from microelectronic
industry to slotted waveguide antennas.
This book provides a general overview and current state of the art
of different types of metal oxide nanomaterials, either in
nanoparticles or thin film structure. It covers from the
development and optimization of different nanofabrication/synthesis
techniques for nanostructures which are currently the attention of
the research community, the study of the structure and interactions
by different characterization techniques of heterostructured
materials and the final impact in different applications such as
nanotherapy, data storage, super magnets, high-frequency devices.
The book's 13 chapters provide deep insight into the intriguing
science of oxide materials and include contributions on novel
technologies to fabricate nanomaterials with a broad range of
functional properties (semiconducting, magnetic, ferroelectric,
thermoelectric, optical, flexible and mechanical). This book is
intended to the experts for consolidation of their knowledge but
also for students who aim to learn and get basics of nanostructured
metal oxides in diverse forms.
This book will provide readers with deep insight into the
intriguing science of thermoelectric thin films. It serves as a
fundamental information source on the techniques and methodologies
involved in thermoelectric thin film growth, characterization and
device processing. This book involves widespread contributions on
several categories of thermoelectric thin films: oxides,
chalcogenides, iodates, nitrides and polymers. This will serve as
an invaluable resource for experts to consolidate their knowledge
and will provide insight and inspiration to beginners wishing to
learn about thermoelectric thin films. Provides a single-source
reference on a wide spectrum of topics related to thermoelectric
thin films, from organic chemistry to devices, from physical
chemistry to applied physics, from synthesis to device
implementation; Covers several categories of thermoelectric thin
films based on different material approaches such as oxides,
chalcogenides, iodates, nitrides and polymers; Discusses synthesis,
characterization, and device processing of thermoelectric thin
films, as well as the nanoengineering approach to tailor the
properties of the used materials at the nanoscale level.
Zinc oxide (ZnO) is an n-type semiconductor with versatile
applications such as optical devices in ultraviolet region,
piezoelectric transducers, transparent electrode for solar cells
and gas sensors. This book "ZnO Thin Films: Properties, Performance
and Applications" gives a deep insight in the intriguing science of
zinc oxide thin films. It is devoted to cover the most recent
advances and reviews the state of the art of ZnO thin films
applications involving energy harvesting, microelectronics,
magnetic devices, photocatalysis, photovoltaics, optics,
thermoelectricity, piezoelectricity, electrochemistry, temperature
sensing. It serves as a fundamental information source on the
techniques and methodologies involved in zinc oxide thin films
growth, characterization, post-deposition plasma treatments and
device processing. This book will be invaluable to the experts to
consolidate their knowledge and provide insight and inspiration to
beginners wishing to learn about zinc oxide thin films.
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Surfaces and Interfaces of Metal Oxide Thin Films, Multilayers, Nanoparticles and Nano-composites - In Memory of Prof. Dr. Hanns-Ulrich Habermeier (Hardcover, 1st ed. 2021)
Alejandro G. Roca, Paolo Mele, Hanae Kijima-Aoki, Elvira Fantechi, Jana K. Vejpravova, …
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R4,453
R4,073
Discovery Miles 40 730
Save R380 (9%)
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Out of stock
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This book provides a general overview and current state of the art
of different types of metal oxide nanomaterials, either in
nanoparticles or thin film structure. It covers from the
development and optimization of different nanofabrication/synthesis
techniques for nanostructures which are currently the attention of
the research community, the study of the structure and interactions
by different characterization techniques of heterostructured
materials and the final impact in different applications such as
nanotherapy, data storage, super magnets, high-frequency devices.
The book's 13 chapters provide deep insight into the intriguing
science of oxide materials and include contributions on novel
technologies to fabricate nanomaterials with a broad range of
functional properties (semiconducting, magnetic, ferroelectric,
thermoelectric, optical, flexible and mechanical). This book is
intended to the experts for consolidation of their knowledge but
also for students who aim to learn and get basics of nanostructured
metal oxides in diverse forms.
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