Here is the comprehensive two-volume index to all of the compounds, subjects, and authors featured in the eighteen-volume Inorganic Reactions and Methods series. Already deemed "invaluable" by the Journal of Organometallic Chemistry, the series becomes even more essential with the publication of these user-friendly, quick-reference companion indexes.

Boasting numerous industrial applications, inorganic chemistry forms the basis for research into new materials and bioinorganic compounds such as calcium that act as biological catalysts. Now complete, this highly acclaimed series presents current knowledge in all areas of inorganic chemistry, including chemistry of the elements; organometallic, polymeric and solid-state materials; and compounds relevant to bioinorganic chemistry.

Praise for the First Edition:

"Very useful for researchers in solid-state chemistry and as a textbook of advanced inorganic chemistry for PhD students." —Advanced Materials.

This book provides unified coverage of the structure, properties, and synthesis of transition metal oxides. Written by two world-class scientists, it offers both an excellent window on modern solid-state chemistry and a gateway to understanding the behavior of inorganic solids.

Scientists and advanced students in inorganic and solid-state chemistry, materials science, ceramics, and condensed matter science will welcome this updated Second Edition, which features new or expanded material on:

• Oxyanion derivatives of cuprates, mercury cuprates, ladder compounds, and new oxide systems
• Giant magnetoresistance, superconductivity, and nonlinear materials
• Recently developed synthetic strategies and examples, including soft chemistry routes

Plus:

• Hundreds of illustrations
• Helpful references.

Chemistry has a vital role to play in materials processing and in the development of new materials that can meet the changing needs of today's technology. This volume addresses both the basic underlying principles and the technological relevance of major topics in advanced materials chemistry, including:

• Electron transfer salt-based conductors, superconductors, and magnets
• Advanced polymeric materials-functional electroactive polymers
• Polymers in electronics
• Chemical vapor deposition
• An introduction to the nonlinear optical properties of organic materials
• Nanoparticles and nanostructural materials
• Nanoporous materials
• Molecular precursor routes to inorganic solids
• Layered transition metal oxides and chalcogenides
• Biomaterials

Bringing together a battery of important information in a single source, this stand-alone reference is an invaluable companion for aspiring and practicing organic, inorganic, solid-state, and surface chemists, as well as polymer and materials scientists.

This volume presents more than 200 checked procedures, bringing the total number of procedures covered by the series to over 3,000. The syntheses appear in 68 numbered sections, grouped into nine chapters that correspond to current areas of research. Noteworthy is the inclusion of syntheses of the early transition-metals polyoxoanions, a class of compounds notably difficult to prepare in pure form. The compounds synthesized are useful, not only to inorganic chemists, but to organic, polymer and solid state chemists, biochemists and materials scientists.

Understanding the mechanisms of crystallization processes on the molecular level is an essential step in the control of the formation of crystals. These crystals may be a desirable solid product or an undesirable precipitate. Crystallization Processes

• covers the theory, research, applications and control of crystallization processes from a homogeneous liquid to a solid phase.
• considers the behaviour of ions and molecules in homogeneous supersaturated solutions and also in liquid metals and ionic melts.
• discusses recent work on ionic solvation desolvation phenomena, association of ions and molecules in solution and precipitation and dissolution of crystals.
• includes the mechanism of crystallization of calcium carbonate and other simple inorganic electrolytes, amino acids, lipids and proteins.

Crystallization Processes is a valuable source of information for all who are interested in the behaviour of solutions especially the theoretical and practical aspects of crystallization phenomena. These include physical, inorganic and organic chemists, materials scientists and chemical engineers who wish to optimize industrial processes. The Wiley Series in Solution Chemistry fills the increasing need to present authoritative, comprehensive and fully up-to-date accounts of the many aspects of solution chemistry. Internationally recognized experts from research or teaching institutions in various countries are invited to contribute to the series.

Explains the basics of inorganic chemistry with a primary emphasis on facts; then uses the student's growing factual knowledge as a foundation for discussing the important principles of periodicity in structure, bonding and reactivity. New to this updated edition: improved treatment of atomic orbitals and properties such as electronegativity, novel approaches to the depiction of ionic structures, nomenclature for transition metal compounds, quantitative approaches to acid-base chemistry, Wade's rules for boranes and carboranes, the chemistry of major new classes of substances including fullerenes and silenes plus a chapter on the inorganic solid state.

Inorganic Biochemistry An Introduction Second Edition J.A. Cowan Developments in the expanding field of inorganic biochemistry have led to major additions to this important teaching text. Like the earlier edition, the second edition does not aim to be comprehensive, but to illustrate the use of basic principles to tackle important problems in inorganic biochemistry. New features of the second edition include a section on basic kinetic and thermodynamic principles in the first chapter; coverage of iron response proteins, ribozymes, and radiopharmaceuticals; a new case study of bleomycin; a comprehensive set of problems and study questions; complete literature citations; and review questions after most of the summary sections. Inorganic Biochemistry: An Introduction, Second Edition will be of great value to senior-level undergraduates and beginning graduate students in inorganic chemistry and biochemistry. It also will be a valuable reference for biological, inorganic and organic chemists; chemical and environmental engineers; researchers in molecular biology and medical sciences; and biophysicists.

Electrons, Atoms, and Molecules in Inorganic Chemistry: A Worked Examples Approach builds from fundamental units into molecules, to provide the reader with a full understanding of inorganic chemistry concepts through worked examples and full color illustrations. The book uniquely discusses failures as well as research success stories. Worked problems include a variety of types of chemical and physical data, illustrating the interdependence of issues. This text contains a bibliography providing access to important review articles and papers of relevance, as well as summaries of leading articles and reviews at the end of each chapter so interested readers can readily consult the original literature. Suitable as a professional reference for researchers in a variety of fields, as well as course use and self-study. The book offers valuable information to fill an important gap in the field.

High Quality Science requires High Quality Data! Today, more than ever, the CRC Handbook of Chemistry and Physics is critical in ensuring that researchers, educators, and students have the highest quality data for chemical compounds and physical particles. Available both in print and online, the Handbook covers 390 chemistry, physics, and related subjects organized in easy-to-find, well-organized tables. Every year, new reported data and new scientific areas are added, making the Handbook the largest comprehensive physical science data source available anywhere. Handbook features include: All data reviewed and evaluated by subject matter experts Standardized chemical names, structures, property names, and property units Important information on subjects such as chemical and laboratory safety, and nomenclature Chemical and physical data critical for fields such as environmental science, bio-medical chemistry, organic and inorganic chemistry, materials innovation, geo- and astrophysics, and solid-state science Digital tools in our Online Edition to analyze, graph, process, and exploit our data content

Discover the exciting, promising field of molecular level artificial photosynthesis
This special volume of Progress in Inorganic Chemistry presents the theory and practice of molecular artificial photosynthesis-a field holding tremendous promise now that molecular solar energy materials are fast becoming competitive with their solid-state counterparts.
The only book on the market to address this important area of inorganic research, Molecular Level Artificial Photosynthetic Materials shows us, in effect, how to imitate the complex natural processes of photosynthesis-featuring state-of-the-art strategies and techniques for creating artificial photosynthetic devices at the molecular level. It takes a multidisciplinary approach, drawing on materials science techniques used in the design of solar energy devices, examining the molecular nature of the chemistry involved, and applying existing knowledge in inorganic photochemistry and photophysics to the growing pool of molecular photonic materials.
Composed of seven superbly crafted contributions by leading experts in the field, this comprehensive work
* Describes molecular components integrated within nanophase materials, gels, zeolites, thin films, and layered solids
* Uses novel time resolved vibrational spectroscopies to elucidate fundamental electron and energy transfer mechanisms in complex supramolecular compounds
* Highlights practical applications such as the conversion of light into electricity, solar detoxification of pollutants, and the production of useful fuels-including the splitting of water into hydrogen and oxygen
* Points to areas of future research and usefulness for inorganic photochemists, as well as for students, chemists, material scientists, physicists, and engineers in a wide range of fields

Chemistry and Technology of Isocyanates Henri Ulrich Chemical Consultant, Guilford, USA The production of both mono- and diisocyanates is of ever increasing importance to the chemical industry. The annual global consumption of polyurethanes, derived from diisocyanates, has reached over six million metric tons. This book highlights the syntheses, reactions and the industrial importance of this group. Chemistry and Technology of Isocyanates:
* is the only comprehensive book on isocyanate chemistry and technology
* highlights the industrial applications of diisocyanates in the manufacture of flexible and rigid foams, elastomers, coatings and adhesives
* discusses ionomers used in water-based coatings, polymer networks and biomedical polymers
* reviews current and future environmental issues, including toxicity and safe handling of isocyanates, recycling of isocyanate derived polymers and monomers derived from natural products.
Chemistry and Technology of Isocyanates is invaluable to researchers and technologists of organic, polymer and biochemistry and all others working with polyurethanes and other isocyanate products.

The discovery and evolution of oranometallic cluster chemistry is a major event in the development of inorganic chemistry. This is the second volume in the series 'The Chemistry of Metal Clusters' edited by Du Shriver, Herb Kaesz, and Richard Adams.
This volume focuses on the chemistry of the early transition elements in their lower and middle oxidation states, i.e., halide, sulfide, oxide, phosphate, alkoxide, and related o-donor ligands. The key feature linking all these complexes in metal-metal bonding is the presence of pi-donor ligands.

Electrochemistry no longer is a specialist discipline, but has become a technique of major importance for most inorganic and organometallic chemists. Similarly, electron-transfer activation has led to great progress in transition-metal mediated organic and inorganic syntheses. This book provides a unique introduction and overview of the structure and reactions of transition-metal radicals, of transition-metal electrochemistry, and of electron-transfer activation, with emphasis on catalytic processes. Each chapter of this book includes numerous citations of the chemical literature, lots of examples and illustrations and the book is written in an extremely readable style. It will serve as a useful tutorial for a wide spectrum of students, chemists, and chemical engineers involved in organic, inorganic, and organometallic chemistry.

For the first time the discipline of modern inorganic chemistry has been systematized according to a plan constructed by a council of editorial advisors and consultants, among them three Nobel laureates (E.O. Fischer, H. Taube and G. Wilkinson).
Rather than producing a collection of unrelated review articles, the series creates a framework which reflects the creative potential of this scientific discipline. Thus, it stimulates future development by identifying areas which are fruitful for further research.
The work is indexed in a unique way by a structured system which maximizes its usefulness to the reader. It augments the organization of the work by providing additional routes of access for specific compounds, reactions and other topics.

Buckminsterfullerenes Edited by W. Edward Billups Marco A. Ciufolini "The authors ... have done an excellent job of summarizing the current state of knowledge of this new class of nanoscale materials, and have captured much of the sense of excitement." -R. E. Smalley Few areas of chemical research have attracted the attention of the scientific community as have the fullerenes. The interest has crossed disciplines of physics, chemistry, and materials science. Buckminsterfullerene itself has been named the Molecule of the Year by Science (December 20, 1991). This monograph brings together the work of leading investigators. It is organized into four sections: (1) The main events leading to the discovery and preliminary studies of the fullerenes. (2) Theoretical studies of fulleroid cages. (3) Super-conductivity properties. (4) Exo- and endohedral complexes and some chemical properties of these new materials.

Inorganic Chemistry in India, Volume 81, the latest release in the Advances in Inorganic Chemistry series, highlights new advances in the field with this new volume presenting interesting chapters on topics such as Water Oxidation and Oxygen Reduction Reactions: A Mechanistic Perspective, Redox Activity as a Tool for Bond Activations and Functionalizations, Heme/Cu-oxygen Intermediates of Amyloid beta Peptides associated with Alzheimer's Disease, N-Heterocyclic Silylene Coordinated Coinage Metal Complexes: An Itinerary of Their Utilities, Implications of strongly coupled catecholate-based anchoring functionality of a sensitizer dye molecule towards photoinduced electron transfer dynamics, and more. Additional sections cover Application of Ru(edta) complexes in biomimetic activation of small molecules: Kinetic and Mechanistic Impact, and more.

Internationally renowned authors review recent advances in the understanding of the structure and reactivity of transition metal hydrides. This up-to-date analysis of transition metal hydrides examines the recent upsurge of experimental studies devoted to transition metal hydrides in both gas phase and solution. It also explores the recent emergence of new refinements in the methodologies and techniques used to delineate reaction mechanisms in solution.

For the first time the discipline of modern inorganic chemistry has been systematized according to a plan constructed by a council of editorial advisors and consultants, among them three Nobel laureates (E.O. Fischer, H. Taube and G. Wilkinson). Rather than producing a collection of unrelated review articles, the series creates a framework which reflects the creative potential of this scientific discipline. Thus, it stimulates future development by identifying areas which are fruitful for further research. The work is indexed in a unique way by a structured system which maximizes its usefulness to the reader. It augments the organization of the work by providing additional routes of access for specific compounds, reactions and other topics.

For the first time the discipline of modern inorganic chemistry has been systematized according to a plan constructed by a council of editorial advisors and consultants, among them three Nobel laureates (E.O. Fischer, H. Taube and G. Wilkinson).
Rather than producing a collection of unrelated review articles, the series creates a framework which reflects the creative potential of this scientific discipline. Thus, it stimulates future development by identifying areas which are fruitful for further research.
The work is indexed in a unique way by a structured system which maximizes its usefulness to the reader. It augments the organization of the work by providing additional routes of access for specific compounds, reactions and other topics.

Porous silicon is rapidly attracting increasing interest from various fields, including optoelectronics, microelectronics, photonics, medicine, chemistry, and biosensing. This nanostructured and biodegradable material has a range of unique properties that make it ideal for many applications. For example, the pores and surface chemistry of the material can be manipulated to change the rate of drug release from hours to months. Porous Silicon: Biomedical and Sensor Applications, Volume Two is part of the three-book series Porous Silicon: From Formation to Application. It discusses applications of porous silicon in bioengineering and in various sensors, including gas sensors, biosensors, pressure sensors, mechanical sensors, optical sensors, and many other types. It also thoroughly reviews the fabrication, parameters, and applications of devices that use porous silicon. Drawing upon a vast amount of recently published literature, the book guides readers through practical implementations that span environmental control, chemistry, spectroscopy, gas chromatography, microelectronics, micromachining, microfluidics, medicine, biotechnology, and the car industry. It is divided into three sections that focus on: Types of sensors that use porous silicon Auxiliary devices that use porous silicon Biomedical applications such as drug delivery, tissue engineering, and in vivo imaging Representing the most recent progress in applications of porous silicon to biomedical and sensory technology, this reference is indispensable for those involved in the research, development, and application of porous silicon in several scientific disciplines. It also serves as a starting point for the interested but unfamiliar reader to gain a thorough understanding of the unusual properties of porous silicon, other porous materials, and possible areas for current and future applications.

For the first time the discipline of modern inorganic chemistry has been systematized according to a plan constructed by a council of editorial advisors and consultants, among them three Nobel laureates (E.O. Fischer, H. Taube and G. Wilkinson).
Rather than producing a collection of unrelated review articles, the series creates a framework which reflects the creative potential of this scientific discipline. Thus, it stimulates future development by identifying areas which are fruitful for further research.
The work is indexed in a unique way by a structured system which maximizes its usefulness to the reader. It augments the organization of the work by providing additional routes of access for specific compounds, reactions and other topics.

By tackling the most central ideas in chemistry, Why Chemical Reactions Happen provides the reader with all the tools and concepts needed to think like a chemist. The text takes a unified approach to the subject, avoiding the traditional divisions of physical, inorganic and organic chemistry and so helps the reader to develop a real overview of chemical processes.

Cellulose is the most abundant organic polymer on earth. In solution, cellulose derivatives can form liquid crystals which take on characteristics of the solid state with unique optical and physico-mechanical properties. The author presents an overview of modern developments in the physical chemistry of solutions of cellulose and its derivatives. Physical Chemistry of Non-aqueous Solutions of Cellulose and Its Derivatives discusses:
* how experimental data and computer simulation can give insight into the factors which influence the interaction of solvent and solute
* how phase transitions in solution can be predicted from the solvency of non aqueous solvents for oellulose and its derivatives
* the methods for obtaining thermodynamic parameters for solvation in non-aqueous solvents
* the rheological properties of lyotropic liquid crystals.
The Wiley Series in Solution Chemistry fills the increasing need to present authoritative comprehensive and fully up-to-date accounts of the many aspects of solution chemistry. Internationally recognized experts from research or teaching institutions in various countries are invited to contribute to the series.

This 18-volume series is a true first. In a clear, concise, and highly organized manner, it provides an in-depth treatment of bond formation reactions categorized by element type. The series presents current knowledge in all areas of inorganic chemistry including chemistry of the elements, coordination compounds, donor-acceptor adducts, organometallic, polymer and solid-state material, and compounds relevant to bioinorganic chemistry. A unique index system provides users with several fast options for accessing information on forming any bond type, compound, or reaction. Coverage of both classical chemistry and the frontiers of today's research makes this series a valuable reference for years to come.