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Materials Development and Processing for Biomedical Applications
focuses on various methods of manufacturing, surface modifications,
and advancements in biomedical applications. This book examines in
detail about five different aspects including, materials
properties, development, processing, surface coatings, future
perspectives and fabrication of advanced biomedical devices.
Fundamental aspects are discussed to better understand the
processing of various biomedical materials such as metals,
ceramics, polymers, composites, etc. A wide range of surface
treatments are covered in this book that will be helpful for the
readers to understand the importance of surface treatments and
their future perspectives. Additional Features Include: Examines
various properties of biomedical materials at the beginning in
several chapters which will enrich the fundamental knowledge of the
readers. Discusses advancements in various fields of biomedical
applications. Provides a glimpse of characterization techniques for
the evaluation of material properties. Addresses biocompatibility,
biocorrosion, and tribocorrosion. This book explores new and novel
strategies for the development of materials and their biomedical
applications. It will serve as a comprehensive resource for both
students and scientists working in materials and biomedical
sciences.
In this book, new developments based on conceptual density
functional theory (CDFT) and its applications in chemistry are
discussed. It also includes discussion of some applications in
corrosion and conductivity and synthesis studies based on CDFT. The
electronic structure principles-such as the electronegativity
equalization principle, the hardness equalization principle, the
electrophilicity equalization principle, and the nucleophilicity
equalization principle, along studies based on these electronic
structure principles-are broadly explained. In recent years some
novel methodologies have been developed in the field of CDFT. These
methodologies have been used to explore mutual relationships
between the descriptors of CDFT, namely electronegativity,
hardness, etc. The mutual relationship between the
electronegativity and the hardness depend on the electronic
configuration of the neutral atomic species. The volume attempts to
cover almost all such methodology. Conceptual Density Function
Theory and Its Application in the Chemical Domain will be an
appropriate guide for research students as well as the supervisors
in PhD programs. It will also be valuable resource for inorganic
chemists, physical chemists, and quantum chemists. The reviews,
research articles, short communications, etc., covered by this book
will be appreciated by theoreticians as well as experimentalists.
In this book, new developments based on conceptual density
functional theory (CDFT) and its applications in chemistry are
discussed. It also includes discussion of some applications in
corrosion and conductivity and synthesis studies based on CDFT. The
electronic structure principles-such as the electronegativity
equalization principle, the hardness equalization principle, the
electrophilicity equalization principle, and the nucleophilicity
equalization principle, along studies based on these electronic
structure principles-are broadly explained. In recent years some
novel methodologies have been developed in the field of CDFT. These
methodologies have been used to explore mutual relationships
between the descriptors of CDFT, namely electronegativity,
hardness, etc. The mutual relationship between the
electronegativity and the hardness depend on the electronic
configuration of the neutral atomic species. The volume attempts to
cover almost all such methodology. Conceptual Density Function
Theory and Its Application in the Chemical Domain will be an
appropriate guide for research students as well as the supervisors
in PhD programs. It will also be valuable resource for inorganic
chemists, physical chemists, and quantum chemists. The reviews,
research articles, short communications, etc., covered by this book
will be appreciated by theoreticians as well as experimentalists.
The growth of technology for chemical assessment has led to great
developments in the investigation of chemical reactivity in recent
years, but key information is often dispersed across many different
research fields. Combining both original principles and the
cutting-edge theories used in chemical reactivity analysis,
Chemical Reactivity, Volume 1 present the latest developments in
theoretical chemistry and its application for the assessment of
chemical processes. Beginning with an exploration of different
theories and principles relating to electronic structure and
reactivity of confined electronic systems, the book goes on to
highlight key information on such topics as Dyson orbitals,
target-ion overlaps, reaction fragility, magnetizability principles
and the Fuki function. Density Functional Theory is discussed in
relation to numerous different principles and approaches, with
further information on constrained methods and diabatic models,
bonding evolution theory, orbital-based population analysis models
and charge transfer models, and Quantum chemistry and QTAIM.
Consolidating the knowledge of a global team of experts in the
field, Chemical Reactivity, Volume 1: Theories and Principles is a
useful resource for both students and researchers interested in
gaining greater understanding of the principles and theories
underpinning chemical reactivity analysis.
The growth of technology for chemical assessment has led to great
developments in the investigation of chemical reactivity in recent
years, but key information is often dispersed across many different
research fields. Exploring both traditional and advanced methods,
Chemical Reactivity, Volume 2: Approaches and Applications present
the latest approaches and strategies for the computational
assessment of chemical reactivity. Following an insightful
introduction, the book begins with an overview of conformer
searching techniques before progressing to explore numerous
different techniques and methods, including confined environments,
quantum similarity descriptors, volume-based thermodynamics and
polarizability. A unified approach to the rules of aromaticity is
followed by methods for assessing interaction energies and the role
of electron density for varied different analyses. Algorithms for
confirmer searching, partitioning and a whole range of quantum
chemical methods are also discussed. Consolidating the knowledge of
a global team of experts in the field, Chemical Reactivity, Volume
2: Approaches and Applications is a useful resource for both
students and researchers interested in applying and refining their
use of the latest approaches for assessing chemical reactivity in
their own work.
Metals are used at an extremely high rate in the industrial and
manufacturing fields. Exemplary properties including strength and
ductility have made this material highly dynamic; however, the risk
of corrosion remains a vital issue. The study of corrosion
prevention has attracted interest from researchers and
professionals as new technologies are emerging that can assist in
the prevention of material destruction. However, research is
lacking on the application of these protective technologies within
specific fields. New Challenges and Industrial Applications for
Corrosion Prevention and Control provides emerging research
exploring the theoretical and practical aspects of protective
methods against corrosion and the implementation of these
techniques within a wide span of professional disciplines.
Featuring coverage on a broad range of topics such as molecular
modeling, surface treatments, and biomaterials, this book is
ideally designed for engineers, industrial chemists, material
scientists, researchers, engineers, academicians, practitioners,
and students seeking current research on the technological
advancements in corrosion protection in various professional
scopes.
Metals are used at an extremely high rate in the industrial and
manufacturing fields. Exemplary properties including strength and
ductility have made this material highly dynamic; however, the risk
of corrosion remains a vital issue. The study of corrosion
prevention has attracted interest from researchers and
professionals as new technologies are emerging that can assist in
the prevention of material destruction. However, research is
lacking on the application of these protective technologies within
specific fields. New Challenges and Industrial Applications for
Corrosion Prevention and Control provides emerging research
exploring the theoretical and practical aspects of protective
methods against corrosion and the implementation of these
techniques within a wide span of professional disciplines.
Featuring coverage on a broad range of topics such as molecular
modeling, surface treatments, and biomaterials, this book is
ideally designed for engineers, industrial chemists, material
scientists, researchers, engineers, academicians, practitioners,
and students seeking current research on the technological
advancements in corrosion protection in various professional
scopes.
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