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This new edition of the Phosphor Handbook comprises three volumes
and provides a comprehensive source of knowledge for researchers
interested in synthesis, characterization, properties, and
applications of phosphor materials. The first volume covers the
theoretical background and fundamental properties of luminescence
as applied to solid-state phosphor materials. New sections include
the rapid developments in principal phosphors in nitrides,
perovskite, and silicon carbide. The second volume provides the
descriptions of synthesis and optical properties of phosphors used
in different applications, including the novel phosphors for some
newly developed applications. New sections on smart phosphors,
quantum dots for display applications, up-conversion nanophosphors
for photonic application, phosphors for solar cells. The third
volume addresses the experimental methods for phosphor evaluation
and characterization and the contents are widely expanded from the
Second Edition, including the theoretical and experimental designs
for new phosphors as well as the phosphor analysis through high
pressure and synchrotron studies.
A benchmark publication, the first edition of the Phosphor
Handbook, published in 1998, set the standard for references in the
field. The second edition, updated and published in 2007, began
exploring new and emerging fields. However, in the last 14 years,
since the second edition was published, many notable advances and
broader phosphor applications have occurred. Completely revised,
updated, and expanded into three separate volumes, this third
edition of the Handbook covers the most recent developments in
phosphor research, characterization, and applications. This volume
on 'Experimental Methods for Phosphor Evaluation and
Characterization' addresses the theoretical and experimental
methods for phosphor evaluation and characterization. The chapters
in the book cover: First principle and DFT analysis of optical,
structural, and chemical properties of phosphors Phosphor design
and tuning through structure and solid solution Design for IR, NIR,
and narrowband emission and thermally stable phosphors and
nanophosphors Detailed illustration for measurement of the absolute
photoluminescence quantum yield of phosphors Phosphor analysis
through photoionization, high pressure, and synchrotron radiation
studies
A benchmark publication, the first edition of the Phosphor
Handbook, published in 1998, set the standard for references in the
field. The second edition, updated and published in 2007, began
exploring new and emerging fields. However, in the last 14 years,
since the second edition was published, many notable advances and
broader phosphor applications have occurred. Completely revised,
updated, and expanded into three separate volumes, this third
edition of the Handbook covers the most recent developments in
phosphor research, characterization, and applications. This volume
on 'Novel Phosphors, Synthesis, and Applications' provides the
descriptions of synthesis and optical properties of phosphors used
in different applications, including the novel phosphors for some
newly developed applications. The chapters in this book cover:
Various LED-based phosphors and their synthesis and applications
Ingenious integrated smart phosphors and their novel optoelectronic
and photonic devices Quantum dot, single crystalline, and glass
phosphors Upconversion nanoparticles for super-resolution imaging
and photonic and biological applications Special phosphors for
laser, OLED, energy storage, quantum cutting, thermometry,
photosynthesis, AC-driven LED, and solar cells
A benchmark publication, the first edition of the Phosphor
Handbook, published in 1998, set the standard for references in the
field. The second edition, updated and published in 2007, began
exploring new and emerging fields. However, in the last 14 years,
since the second edition was published, many notable advances and
broader phosphor applications have occurred. Completely revised,
updated, and expanded into three separate volumes, this third
edition of the Handbook covers the most recent developments in
phosphor research, characterization, and applications. This volume
on 'Fundamentals of Luminescence' elucidates the theoretical
background and fundamental properties of luminescence as applied to
solid-state phosphor materials. The book includes the chapters that
cover: Basic principles of luminescence, the principal phosphor
materials, and their optical properties New developments in
principal phosphors in nitrides, perovskite, and silicon carbide
Revised lanthanide level locations and its impact on phosphor
performance Detailed descriptions of energy transfer and
upconversion processes in bulk and nanoscaled particles and
core-shell structures Rapid developing organic and polymer
luminescent materials and devices
Cleavage of water to its constituents (i.e., hydrogen and oxygen)
for production of hydrogen energy at an industrial scale is one of
the "holy grails" of materials science. That can be done by
utilizing the renewable energy resource i.e. sunlight and
photocatalytic material. The sunlight and water are abundant and
free of cost available at this planet. But the development of a
stable, efficient and cost-effective photocatalytic material to
split water is still a great challenge. To develop the effective
materials for photocatalytic water splitting, various type of
materials with different sizes and structures from nano to giant
have been explored that includes metal oxides, metal chalcogenides,
carbides, nitrides, phosphides, and so on. Fundamental concepts and
state of art materials for the water splitting are also discussed
to understand the phenomenon/mechanism behind the
photoelectrochemical water splitting. This book gives a
comprehensive overview and description of the manufacturing of
photocatalytic materials and devices for water splitting by
controlling the chemical composition, particle size, morphology,
orientation and aspect ratios of the materials. The real
technological breakthroughs in the development of the photoactive
materials with considerable efficiency, are well conversed to bring
out the practical aspects of the technique and its
commercialization.
This book introduces readers to fundamental information on phosphor
and quantum dots. It comprehensively reviews the latest research
advances in and applications of fluoride phosphors, oxide
phosphors, nitridosilicate phosphors and various quantum dot
materials. Phosphors and phosphor-based quantum dot materials have
recently gained considerable scientific interest due to their wide
range of applications in lighting, displays, medical and
telecommunication technologies. This work will be of great interest
to researchers and graduate students in materials sciences and
chemistry who wish to learn more about the principles, synthesis
and analysis of phosphors and quantum dot materials.
This book introduces readers to fundamental information on phosphor
and quantum dots. It comprehensively reviews the latest research
advances in and applications of fluoride phosphors, oxide
phosphors, nitridosilicate phosphors and various quantum dot
materials. Phosphors and phosphor-based quantum dot materials have
recently gained considerable scientific interest due to their wide
range of applications in lighting, displays, medical and
telecommunication technologies. This work will be of great interest
to researchers and graduate students in materials sciences and
chemistry who wish to learn more about the principles, synthesis
and analysis of phosphors and quantum dot materials.
This book introduces readers to fundamental information on phosphor
and quantum dots. It comprehensively reviews the latest research
advances in and applications of fluoride phosphors, oxide
phosphors, nitridosilicate phosphors and various quantum dot
materials. Phosphors and phosphor-based quantum dot materials have
recently gained considerable scientific interest due to their wide
range of applications in lighting, displays, medical and
telecommunication technologies. This work will be of great interest
to researchers and graduate students in materials sciences and
chemistry who wish to learn more about the principles, synthesis
and analysis of phosphors and quantum dot materials.
This book introduces readers to fundamental information on phosphor
and quantum dots. It comprehensively reviews the latest research
advances in and applications of fluoride phosphors, oxide
phosphors, nitridosilicate phosphors and various quantum dot
materials. Phosphors and phosphor-based quantum dot materials have
recently gained considerable scientific interest due to their wide
range of applications in lighting, displays, medical and
telecommunication technologies. This work will be of great interest
to researchers and graduate students in materials sciences and
chemistry who wish to learn more about the principles, synthesis
and analysis of phosphors and quantum dot materials.
Cleavage of water to its constituents (i.e., hydrogen and oxygen)
for production of hydrogen energy at an industrial scale is one of
the "holy grails" of materials science. That can be done by
utilizing the renewable energy resource i.e. sunlight and
photocatalytic material. The sunlight and water are abundant and
free of cost available at this planet. But the development of a
stable, efficient and cost-effective photocatalytic material to
split water is still a great challenge. To develop the effective
materials for photocatalytic water splitting, various type of
materials with different sizes and structures from nano to giant
have been explored that includes metal oxides, metal chalcogenides,
carbides, nitrides, phosphides, and so on. Fundamental concepts and
state of art materials for the water splitting are also discussed
to understand the phenomenon/mechanism behind the
photoelectrochemical water splitting. This book gives a
comprehensive overview and description of the manufacturing of
photocatalytic materials and devices for water splitting by
controlling the chemical composition, particle size, morphology,
orientation and aspect ratios of the materials. The real
technological breakthroughs in the development of the photoactive
materials with considerable efficiency, are well conversed to bring
out the practical aspects of the technique and its
commercialization.
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