|
|
Books > Science & Mathematics > Chemistry
Advances in Quantum Chemistry presents surveys of current topics
in this rapidly developing field that has emerged at the cross
section of the historically established areas of mathematics,
physics, chemistry, and biology. It features detailed reviews
written by leading international researchers. This series provides
a one-stop resource for following progress in this
interdisciplinary area.
* Publishes articles, invited reviews and proceedings of major
international conferences and workshops
* Written by leading international researchers in quantum and
theoretical chemistry
* Highlights important interdisciplinary developments
Published continuously since 1944, the "Advances in Protein
Chemistry and Structural Biology" serial has been a continuous,
essential resource for protein chemists. Covering reviews of
methodology and research in all aspects of protein chemistry,
including purification/expression, proteomics, modeling and
structural determination and design, each volume brings forth new
information about protocols and analysis of proteins while
presenting the most recent findings from leading experts in a broad
range of protein-related topics.
Coversreviews of methodology and research in all aspects of
protein chemistry. Brings forth new information about protocols and
analysis of proteins while presentingthe most recent findings from
leading experts in a broad range of protein-related topics. "
This book deals with functional materials that are in the
frontiers of current materials science and technology research,
development and manufacture. The first of its kind, it deals with
three classes of materials, (1) magnetic semiconductors, (2)
multiferroics, and (3) graphene. Because of the wide popularity of
these materials there isa strong need for a book about these
materials for graduate students, new researchers in science and
technology, as well as experienced scientists and technologists,
technology based companies and government institutes for science
and technology. Thebook will provide this broad audience with both
theoretical and experimental understanding to help in technological
advances in the development of devices and related new technologies
based on these very interesting and novel materials.
Covers both the theoretical and experimental aspects of advanced
functional materials, which are important for use in a number of
rapidly developing novel technological devices Includes excellent
coverage of three of the leading advanced functional
materialsEdited by a leading expert at the forefront of advanced
functional materials research "
Spectroscopic Properties of Inorganic and Organometallic Compounds:
Techniques, Materials and Applications provides a unique source of
information in an important area of chemistry. Since Volume 40 the
nature and ethos of this series have been altered to reflect a
change of emphasis towards 'Techniques, Materials and
Applications'. Researchers will now find up-to-date critical
reviews which provide in-depth analyses of the leading papers in
the field, with authors commenting of the quality and value of the
work in a wider context. Focus areas will include
structure-function relationships, photochemistry and spectroscopy
of inorganic complexes, and catalysis; materials such as ceramics,
cements, pigments, glasses and corrosion products; techniques such
as advanced laser spectroscopy and theoretical methods.
"General Chemistry for Engineers" is tailored for a one-semester
freshman-level college course for students pursuing engineering
degrees. The book offers a balance of conciseness, rigor, and depth
needed to prepare students for more advanced coursework and careers
in various engineering specialties, such as civil, environmental,
electrical, computer, mechanical and industrial engineering, in
addition to chemical engineering.
This text leads students through the breadth of a typical
two-semester sequence in general chemistry. It elucidates the key
concepts and skills important for entering engineering students,
including problem solving, qualitative and quantitative thinking,
and importance of units. Examples are drawn from problems of
interest to modern engineers, including alternative energy,
advanced materials, and the environment. The book is the result of
the author's unique experiences teaching approximately 2,500
freshman in chemistry and upper-level students in chemical and
biological engineering, in addition to leading research and
development teaching in the medical device and specialty
pharmaceutical industries. The author received a variety of
teaching awards at Northeastern honoring his work in making an
intense, fast-pace course manageable and exciting.
Paul A. DiMilla is an Associate Academic Specialist in Chemistry
& Chemical Biology and Chemical Engineering at Northeastern
University. He received his B.S. from the Massachusetts Institute
of Technology and his Ph.D. from the University of Pennsylvania,
both in Chemical Engineering. He was a Postdoctoral Fellow in
Chemistry at Harvard University prior to beginning his faculty
career in Chemical and Biomedical Engineering at Carnegie Mellon
University, where he co-founded Automated Cell, Inc.
Paul was a Visiting Professor of Bioengineering at the Franklin W.
Olin College of Engineering and a Visiting Scholar in Biomedical
Engineering at Boston University. Additionally, he led R&D
teams in the private sector, developing tissue-engineered medical
products and drug- generating biodegradable polymers. He received
an Early Career Development Award from the NSF, a Searle Scholar
Award, and the first Whitaker Young Investigator Award. He is also
the inventor on seven issued US patents.
'Overall, this collection of case studies provides an outstanding
starting point for understanding the ethics of chemistry. It is an
extremely important contribution to the study of chemical ethics
... Ethics of Chemistry is a key resource for educators interested
in integrating ethics instruction into their chemistry curricula
... an important foundation for equipping students with the moral
judgement and analytical skills necessary to contend with the
ethical issues they are likely to face in their professional
lives.'Nature Chemistry'... the book offers a general introduction
to many relevant topics concerning the values, responsibilities,
and judgements in (and of) chemistry. The volume could be helpful
for university students and teachers or even general readers
interested in the ethics of chemistry.' [Read Full Review]Jose
Ramon Bertomeu-SanchezAmbixAlthough chemistry has been the target
of numerous public moral debates for over a century, there is still
no academic field of ethics of chemistry to develop an ethically
balanced view of the discipline. And while ethics courses are
increasingly demanded for science and engineering students in many
countries, chemistry is still lagging behind because of a lack of
appropriate teaching material. This volume fills both gaps by
establishing the scope of ethics of chemistry and providing a
cased-based approach to teaching, thereby also narrating a cultural
history of chemistry.From poison gas in WWI to climate engineering
of the future, this volume covers the most important historical
cases of chemistry. It draws lesson from major disasters of the
past, such as in Bhopal and Love Canal, or from thalidomide, Agent
Orange, and DDT. It further introduces to ethical arguments pro and
con by discussing issues about bisphenol-A, polyvinyl chloride, and
rare earth elements; as well as of contested chemical projects such
as human enhancement, the creation of artificial life, and patents
on human DNA. Moreover, it illustrates chemical engagements in
preventing hazards, from the prediction of ozone depletion, to
Green Chemistry, and research in recycling, industrial substance
substitution, and clean-up. Students also learn about codes of
conduct and chemical regulations.An international team of experts
narrate the historical cases and analyse their ethical dimensions.
All cases are suitable for undergraduate teaching, either in
classes of ethics, history of chemistry, or in chemistry classes
proper.
This title includes a number of Open Access chapters. This
collection presents a broad selection of recent research on
analytical chemistry, including methods of determination and
analysis as applied to plants, pharmaceuticals, foods, proteins,
and more. Analytical chemistry is the study of what chemicals are
present and in what amount in natural and artificial materials.
Because these understandings are fundamental in just about every
chemical inquiry, analytical chemistry is used to obtain
information, ensure safety, and solve problems in many different
chemical areas, and is essential in both theoretical and applied
chemistry. Analytical chemistry is driven by new and improved
instrumentation.
Organic Structure Determination Using 2-D NMR Spectroscopy: A
Problem-Based Approach, Second Edition, is a primary text for a
course in two-dimensional (2-D) nuclear magnetic resonance (NMR)
techniques, with the goal to learn to identify organic molecular
structure. It presents strategies for assigning resonances to known
structures and for deducing structures of unknown organic molecules
based on their NMR spectra. The book begins with a discussion of
the NMR technique, while subsequent chapters cover instrumental
considerations; data collection, processing, and plotting; chemical
shifts; symmetry and topicity; through-bond effects; and
through-space effects. The book also covers molecular dynamics;
strategies for assigning resonances to atoms within a molecule;
strategies for elucidating unknown molecular structures; simple and
complex assignment problems; and simple and complex unknown
problems. Each chapter includes problems that will enable readers
to test their understanding of the material discussed. The book
contains 30 known and 30 unknown structure determination problems.
It also features a supporting website from which instructors can
download the structures of the unknowns in selected chapters,
digital versions of all figures, and raw data sets for processing.
This book will stand as a single source to which instructors and
students can go to obtain a comprehensive compendium of NMR
problems of varying difficulty.
This book provides a comprehensive account of the reactions between
clay minerals and organic polymers. The book opens with a
discussion of the structures of common clay minerals, clays colloid
chemistry, and the behaviour of organic polymers at clay surfaces.
This is followed by a systematic treatment of complex formation
between clay minerals and various classes of synthetic and
naturally occurring polymers, a description of the properties of
the resulting complexes and, wherever appropriate, their practical
applications. The book will have a new separate chapter on
clay-polymer nanocomposites. Each chapter is written as a
self-contained review paper, giving a list of reference to the
original literature.
* describes the important development in clay-polymer
nanocomposites
*contains new figures and diagrams
* extenisve revision of the previous edition"
Magnetochemistry is concerned with the study of magnetic
properties in materials. It investigates the relationship between
the magnetic properties of chemical compounds and their atomic and
molecular structure. This rapidly growing field has a number of
applications, and the measuring and interpreting of magnetic
properties is often conducted by scientists who are not specialists
in the field. Magnetochemistry requires complex mathematics and
physics and so can be daunting for those who have not previously
studied it in depth. Aimed at providing a single source of
information on magnetochemistry, this book offers a comprehensive
and contemporary review of the mathematical background and formula
for predicting or fitting magnetic data, including a summary of the
theory behind magnetochemistry to help understand the necessary
calculations. Along with tables listing the key formula, there is
also a model of the magnetic functions showing the effect of
individual magnetic parameters. The clear structure and
comprehensive coverage of all aspects of magnetochemistry will make
this an essential book for advanced students and
practitioners.
Provides comprehensive overview of the mathematical background of
magnetochemistryUses clear and accessible language so scientists in
a variety of fields can utilize the informationDetailed
explanations of equations and formula
|
You may like...
Sold On Love
Kathleen Fuller
Paperback
R145
R134
Discovery Miles 1 340
|