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IV-VI and IV-VI2 semiconductors have attracted considerable
attention due to their applications in the fabrication of
electronic and optoelectronic devices as light emitting diodes and
solar cells. The electrical properties of these semiconductors can
also be tuned by adding impurity atoms. Because of their wide
application in various devices, the search for new semiconductor
materials and the improvement of existing materials is an important
field of study. Doping with impurities is a common method of
modifying and diversifying the properties of physical and chemical
semiconductors. This book covers all known information about phase
relations in quaternary systems based on IV-VI and IV-VI2
semiconductors, providing the first systematic account of phase
equilibria in quaternary systems based on IV-VI and IV-VI2
semiconductors and making research originally published in
Ukrainian and Russian accessible to the wider scientific community.
This book will be of interest to undergraduate and graduate
students studying materials science, solid state chemistry, and
engineering. It will also be relevant for researchers at industrial
and national laboratories, in addition to phase diagram
researchers, inorganic chemists, and solid state physicists.
III-V semiconductors have attracted considerable attention due to
their applications in the fabrication of electronic and
optoelectronic devices as light emitting diodes and solar cells.
The electrical properties of these semiconductors can also be tuned
by adding impurity atoms. Because of their wide application in
various devices, the search for new semiconductor materials and the
improvement of existing materials is an important field of study.
This book covers all known information about phase relations in
multinary systems based on III-V semiconductors, providing the
first systematic account of phase equilibria in multinary systems
based on III-V semiconductors and making research originally
published in Russian accessible to the wider scientific community.
This book will be of interest to undergraduate and graduate
students studying materials science, solid state chemistry, and
engineering. It will also be relevant for researchers at industrial
and national laboratories, in addition to phase diagram
researchers, inorganic chemists, and solid state physicists.
Features: Provides up-to-date experimental and theoretical
information Allows readers to synthesize semiconducting materials
with predetermined properties Delivers a critical evaluation of
many industrially important systems presented in the form of
two-dimensional sections for the condensed phases
III-V semiconductors have attracted considerable attention due to
their applications in the fabrication of electronic and
optoelectronic devices as light emitting diodes and solar cells.
The electrical properties of these semiconductors can also be tuned
by adding impurity atoms. Because of their wide application in
various devices, the search for new semiconductor materials and the
improvement of existing materials is an important field of study.
Doping with impurities is a common method of modifying and
diversifying the properties of physical and chemical
semiconductors. This book covers all known information about phase
relations in quaternary systems based on III-V semiconductors,
providing he first systematic account of phase equilibria in
quaternary systems based on III-V semiconductors and making
research originally published in Russian accessible to the wider
scientific community. Features: Contains up-to-date experimental
and theoretical information Allows readers to synthesize
semiconducting materials with predetermined properties Delivers a
critical evaluation of many industrially important systems
presented in the form of two-dimensional sections for the condensed
phases
Doped by isovalent or heterovalent foreign impurities (F), II-VI
semiconductor compounds enable control of optical and electronic
properties, making them ideal in detectors, solar cells, and other
precise device applications. For the reproducible manufacturing of
the doped materials with predicted and desired properties,
manufacturing technologists need knowledge of appropriate ternary
system phase diagrams. A guide for technologists and researchers at
industrial and national laboratories, Ternary Alloys Based on II-VI
Semiconductor Compounds collects all available data on ternary
II-VI-F semiconductor materials. It presents ternary phase diagrams
for the systems and includes data about phase equilibriums on the
cross sections. The book is also suitable for phase diagram
researchers, inorganic chemists, and solid state physicists as well
as students in materials science, engineering, physical chemistry,
and physics. The authors classify all materials according to the
periodic groups of their constituent atoms (i.e., possible
combinations of Zn, Cd, and Hg with chalcogens S, Se, and Te) and
additional components in the order of their group number. Each
ternary system database description contains the diagram type,
possible phase transformation and physical-chemical interaction of
the components, equilibrium investigation methods, thermodynamic
characteristics, and the sample preparation method. In some cases,
the book illustrates the solid and liquid-phase equilibriums with
vapor because of their importance to crystal growth using the
vapor-liquid-solid technique. It also presents data on the
homogeneity range as well as baric and temperature dependences of
solubility impurities in the semiconductor lattice and the liquid
phase.
Doped by isovalent or heterovalent foreign impurities, II-VI
semiconductor compounds enable control of optical and electronic
properties, making them ideal in detectors, solar cells, and other
precise device applications. Quaternary alloys allow a simultaneous
adjustment of band gap and lattice constant, increasing radiant
efficiency at a wide range of wavelengths. Quaternary Alloys Based
on II-VI Semiconductors consolidates data pertaining to diagrams of
quaternary systems based on these semiconductor compounds. The book
illustrates up-to-date experimental and theoretical information
about phase relations based on II-VI semiconductor systems with
four components. It critically evaluates many industrially
significant systems presented in two-dimensional sections for the
condensed phases. The author classifies all materials according to
the periodic groups of their constituent atoms and additional
components in the order of their group number. Each quaternary
database description contains brief information on the diagram
type, possible phase transformations and physical-chemical
interactions of the components, thermodynamic characteristics, and
methods for equilibrium investigation and sample preparation. Most
of the phase diagrams are in their original form. For those with
varying published data, the text includes several versions for
comparison. This book provides invaluable data for technologists
and researchers involved in developing and manufacturing II-VI
semiconductors at industrial and national laboratories. It is also
suitable for phase relations researchers, inorganic chemists, and
semiconductor physicists as well as graduate students in materials
science and engineering. Check out the companion books: Ternary
Alloys Based on II-VI Semiconductor Compounds and
Provides up-to-date experimental and theoretical information Allows
readers to synthesize semiconducting materials with predetermined
properties Delivers a critical evaluation of many industrially
important systems presented in the form of two-dimensional sections
for the condensed phases
Doped by isovalent or heterovalent foreign impurities, II-VI
semiconductor compounds enable control of optical and electronic
properties, making them ideal in detectors, solar cells, and other
precise device applications. Quaternary alloys allow a simultaneous
adjustment of band gap and lattice constant, increasing radiant
efficiency at a wide range of wavelengths. Quaternary Alloys Based
on II-VI Semiconductors consolidates data pertaining to diagrams of
quaternary systems based on these semiconductor compounds. The book
illustrates up-to-date experimental and theoretical information
about phase relations based on II-VI semiconductor systems with
four components. It critically evaluates many industrially
significant systems presented in two-dimensional sections for the
condensed phases. The author classifies all materials according to
the periodic groups of their constituent atoms and additional
components in the order of their group number. Each quaternary
database description contains brief information on the diagram
type, possible phase transformations and physical-chemical
interactions of the components, thermodynamic characteristics, and
methods for equilibrium investigation and sample preparation. Most
of the phase diagrams are in their original form. For those with
varying published data, the text includes several versions for
comparison. This book provides invaluable data for technologists
and researchers involved in developing and manufacturing II-VI
semiconductors at industrial and national laboratories. It is also
suitable for phase relations researchers, inorganic chemists, and
semiconductor physicists as well as graduate students in materials
science and engineering. Check out the companion books: Ternary
Alloys Based on II-VI Semiconductor Compounds and
III-V semiconductors have attracted considerable attention due to
their applications in the fabrication of electronic and
optoelectronic devices as light-emitting diodes and solar cells.
Because of their wide applications in a variety of devices, the
search for new semiconductor materials and the improvement of
existing materials is an important field of study. This new book
covers all known information about phase relations in ternary
systems based on III-V semiconductors. This book will be of
interest to undergraduate and graduate students studying materials
science, solid state chemistry, and engineering. It will also be
relevant for researchers at industrial and national laboratories,
in addition to phase diagram researchers, inorganic chemists, and
solid state physicists.
III-V semiconductors have attracted considerable attention due to
their applications in the fabrication of electronic and
optoelectronic devices as light emitting diodes and solar cells.
The electrical properties of these semiconductors can also be tuned
by adding impurity atoms. Because of their wide application in
various devices, the search for new semiconductor materials and the
improvement of existing materials is an important field of study.
This book covers all known information about phase relations in
multinary systems based on III-V semiconductors, providing the
first systematic account of phase equilibria in multinary systems
based on III-V semiconductors and making research originally
published in Russian accessible to the wider scientific community.
This book will be of interest to undergraduate and graduate
students studying materials science, solid state chemistry, and
engineering. It will also be relevant for researchers at industrial
and national laboratories, in addition to phase diagram
researchers, inorganic chemists, and solid state physicists.
Features: Provides up-to-date experimental and theoretical
information Allows readers to synthesize semiconducting materials
with predetermined properties Delivers a critical evaluation of
many industrially important systems presented in the form of
two-dimensional sections for the condensed phases
III-V semiconductors have attracted considerable attention due to
their applications in the fabrication of electronic and
optoelectronic devices as light emitting diodes and solar cells.
The electrical properties of these semiconductors can also be tuned
by adding impurity atoms. Because of their wide application in
various devices, the search for new semiconductor materials and the
improvement of existing materials is an important field of study.
Doping with impurities is a common method of modifying and
diversifying the properties of physical and chemical
semiconductors. This book covers all known information about phase
relations in quaternary systems based on III-V semiconductors,
providing he first systematic account of phase equilibria in
quaternary systems based on III-V semiconductors and making
research originally published in Russian accessible to the wider
scientific community. Features: Contains up-to-date experimental
and theoretical information Allows readers to synthesize
semiconducting materials with predetermined properties Delivers a
critical evaluation of many industrially important systems
presented in the form of two-dimensional sections for the condensed
phases
III-V semiconductors have attracted considerable attention due to
their applications in the fabrication of electronic and
optoelectronic devices as light-emitting diodes and solar cells.
Because of their wide applications in a variety of devices, the
search for new semiconductor materials and the improvement of
existing materials is an important field of study. This new book
covers all known information about phase relations in ternary
systems based on III-V semiconductors. This book will be of
interest to undergraduate and graduate students studying materials
science, solid state chemistry, and engineering. It will also be
relevant for researchers at industrial and national laboratories,
in addition to phase diagram researchers, inorganic chemists, and
solid state physicists.
A companion volume to Ternary Alloys Based on II-VI Semiconductor
Compounds (CRC Press, 2013) and Quaternary Alloys Based on II-VI
Semiconductor Compounds (CRC Press, 2014), Multinary Alloys Based
on II-VI Semiconductors provides up-to-date experimental and
theoretical information on phase relations based on II-VI
semiconductor systems with five or more components. Featuring
detailed figures and extensive references, this book: Delivers a
critical evaluation of many industrially important systems
presented in the form of two-dimensional sections for the condensed
phases Summarizes the data from the last 15-20 years of literature
on the study of organometallic compounds, which include zinc,
cadmium, or mercury and sulfur, selenium, or tellurium Classifies
all materials according to the periodic table groups of their
constituent atoms, that is, possible combinations of Zn, Cd, and Hg
with chalcogens S, Se, and Te and additional components in the
order of their group number Specifies the diagram type, possible
phase transformations and physical-chemical interaction of the
components, methods of equilibrium investigation, thermodynamic
characteristics, and methods for sample preparation in each
multinary database description Multinary Alloys Based on II-VI
Semiconductors contains valuable material useful for obtaining
nanoscale II-VI semiconductors and for preparing thin films of
these semiconductor materials, as well as for exploring the
biological and medicinal applications of organometallic compounds,
and for identifying new compounds with necessary properties.
A companion volume to Ternary Alloys Based on II-VI Semiconductor
Compounds (CRC Press, 2013) and Quaternary Alloys Based on II-VI
Semiconductor Compounds (CRC Press, 2014), Multinary Alloys Based
on II-VI Semiconductors provides up-to-date experimental and
theoretical information on phase relations based on II-VI
semiconductor systems with five or more components. Featuring
detailed figures and extensive references, this book: Delivers a
critical evaluation of many industrially important systems
presented in the form of two-dimensional sections for the condensed
phases Summarizes the data from the last 15-20 years of literature
on the study of organometallic compounds, which include zinc,
cadmium, or mercury and sulfur, selenium, or tellurium Classifies
all materials according to the periodic table groups of their
constituent atoms, that is, possible combinations of Zn, Cd, and Hg
with chalcogens S, Se, and Te and additional components in the
order of their group number Specifies the diagram type, possible
phase transformations and physical-chemical interaction of the
components, methods of equilibrium investigation, thermodynamic
characteristics, and methods for sample preparation in each
multinary database description Multinary Alloys Based on II-VI
Semiconductors contains valuable material useful for obtaining
nanoscale II-VI semiconductors and for preparing thin films of
these semiconductor materials, as well as for exploring the
biological and medicinal applications of organometallic compounds,
and for identifying new compounds with necessary properties.
Doped by isovalent or heterovalent foreign impurities (F), II-VI
semiconductor compounds enable control of optical and electronic
properties, making them ideal in detectors, solar cells, and other
precise device applications. For the reproducible manufacturing of
the doped materials with predicted and desired properties,
manufacturing technologists need knowledge of appropriate ternary
system phase diagrams. A guide for technologists and researchers at
industrial and national laboratories, Ternary Alloys Based on II-VI
Semiconductor Compounds collects all available data on ternary
II-VI-F semiconductor materials. It presents ternary phase diagrams
for the systems and includes data about phase equilibriums on the
cross sections. The book is also suitable for phase diagram
researchers, inorganic chemists, and solid state physicists as well
as students in materials science, engineering, physical chemistry,
and physics. The authors classify all materials according to the
periodic groups of their constituent atoms (i.e., possible
combinations of Zn, Cd, and Hg with chalcogens S, Se, and Te) and
additional components in the order of their group number. Each
ternary system database description contains the diagram type,
possible phase transformation and physical-chemical interaction of
the components, equilibrium investigation methods, thermodynamic
characteristics, and the sample preparation method. In some cases,
the book illustrates the solid and liquid-phase equilibriums with
vapor because of their importance to crystal growth using the
vapor-liquid-solid technique. It also presents data on the
homogeneity range as well as baric and temperature dependences of
solubility impurities in the semiconductor lattice and the liquid
phase.
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