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Since its inception in the mid-twentieth century, solid-state chemistry has matured within the chemical sciences. In the same way that chemistry itself is considered a central science, solid-state chemistry is central in its many relations to physics, in particular to solid-state physics and also to materials science and engineering. There are few problems in materials science or engineering in which the preparation of the material itself is not a central issue and, more often than not, this will be a solid-state chemical problem. For these reasons, it is not surprising that in the technological development of the last century, solid-state chemistry has grown in importance. It is not only a synthesis science, it is also the science of structures, defects, stoichiometry, and physical chemical properties. Most of these are explored in the book. Topics include: metal-to-insulator transition; porous materials; dielectric materials; nanomaterials; synthesis of materials; films and catalytic materials; CMR materials; thermoelectric materials; dielectrics, catalysts, phosphors, films and properties and synthesis and crystal growth.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
Symposium EE, 'Solid-State Chemistry of Inorganic Materials VIII', was held Nov. 29-Dec. 3 at the 2010 MRS Fall Meeting in Boston, Massachusetts. Solid-state chemistry is a truly interdisciplinary field, attracting investigators from chemistry, condensed-matter physics, materials science engineering, ceramics, metallurgy, chemical engineering, and mineralogy/geology. It encompasses synthesis of new materials; preparation of materials in new forms (nanocrystalline, thin-film heterostructures, porous, etc.); investigations of the relationships between composition, structure and properties; as well as the application of cutting-edge characterization methods. The scope and importance of solid-state chemistry has grown not only with the discovery of new materials but also through the advancement of techniques for preparing and studying them, and in advanced computational predictions for structures and properties. The intent of the symposium was to provide researchers from academics, government, and industrial laboratories an interdisciplinary forum for interaction, discussion, and exchange of ideas on recent fundamental advances in solid-state chemistry and their impact on the development and application of inorganic materials.
As a spectroscopic method, nuclear magnetic resonance (NMR) has seen spectacular growth over the past two decades, both as a technique and in its applications. Today the applications of NMR span a wide range of scientific disciplines, from physics to biology to medicine. Each volume of Nuclear Magnetic Resonance comprises a combination of annual and biennial reports which together provide comprehensive coverage of the literature on this topic. This Specialist Periodical Report reflects the growing volume of published work involving NMR techniques and applications, in particular NMR of natural macromolecules which is covered in two reports: "NMR of Proteins and Nucleic Acids" and "NMR of Carbohydrates, Lipids and Membranes". For those wanting to become rapidly acquainted with specific areas of NMR, this title provides unrivalled scope of coverage. Seasoned practitioners of NMR will find this an invaluable source of current methods and applications. Volume 33 covers literature published from June 2002 to May 2003. Specialist Periodical Reports provide systematic and detailed review coverage in major areas of chemical research. Compiled by teams of leading authorities in the relevant subject areas, the series creates a unique service for the active research chemist, with regular, in-depth accounts of progress in particular fields of chemistry. Subject coverage within different volumes of a given title is similar and publication is on an annual or biennial basis.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
The importance and scope of solid-state chemistry has grown in response to the continuing challenge to understand, control and predict the structures and properties of solids at the atomic level, and to synthesize new compounds with enhanced physical response. The many successes in the preparation of materials with unique electronic, optical, magnetic and catalytic properties are a clear testament to the vitality and importance of solid-state chemistry to materials research. This book provides an interdisciplinary forum for discussion and exchange of ideas on both the recent advances in solid-state chemistry and their impact on the development and application of inorganic materials. Topics include: chalcogenides; synthesis and reactivity; materials synthesis; theory; optical properties; electronic and magnetic properties; dielectrics and ferroelectrics; solid-state ionics and surfaces and interfaces.
Solid-state chemistry continues to span and to spawn multiple materials research areas, attracting investigators from chemistry, condensed-matter physics, materials science and engineering, ceramics, chemical engineering, and mineralogy/geology, to name a few. The common challenge is to understand and to predict structures and properties of new materials. As with earlier volumes in this series from the Materials Research Society, the presentations here represent interdisciplinary research from around the world and explore not only recent advances in the solid-state chemistry of inorganic materials, but also their impact on commercial applications. The book covers a broad range of topics, including synthesis and characterization of novel functional materials; design and fabrication of nanostructures and nanomaterials; crystal and structural chemistry; catalysis; gas separation and storage; and magnetic and optical applications. Both theoretical and computational studies of solid-state inorganic materials are featured. Joint presentations with solid-state ionics are also particularly fruitful.