Quasicrystals 2003: Volume 805

Quasicrystals 2003: Volume 805
Author: E. Belin-Ferre
Publisher: Materials Research Society
Total Pages: 392
Release: 2004-03-18
Genre: Technology & Engineering
ISBN: 9781558997431

Twenty years after the discovery of a quasicrystalline compound, the field of quasicrystals still raises interest and is continuously evolving. Quasicrystals display properties different from conventional crystals with small unit cells and present interesting potential for industrial purposes. This book offers an updated look into the field of quasicrystalline research. For example, a report on electrodeposited Al-Cu-Fe quasicrystals shows great promise for industry. It is also demonstrated that when Al-Cu-Fe quasicrystals are used as catalysts, in particular at high temperatures, such quasicrystals outperform conventional industrial catalysts. A new class of quasicrystal, based on a novel type of local order differing from previously observed Mackay- and Bergman-type quasicrystals, is featured. A detailed description of layer-by-layer growth of a Cu film on a quasicrystalline surface is also provided. Additional topics include: synthesis and structure; transport properties; electronic properties; mechanical properties; quasicrystals from metallic glasses; surfaces and coatings; and applications and hydrogen storage.

III-Nitride Semiconductors and Their Modern Devices

III-Nitride Semiconductors and Their Modern Devices
Author: Bernard Gil
Publisher: Semiconductor Science and Tech
Total Pages: 661
Release: 2013-08-22
Genre: Science
ISBN: 0199681724

All recent developments of nitrides and of their technology are gathered here in a single book, with chapters written by world leaders in the field.

Molecularly Imprinted Materials-- 2003

Molecularly Imprinted Materials-- 2003
Author: Peter Kofinas
Publisher:
Total Pages: 136
Release: 2004
Genre: Technology & Engineering
ISBN:

The availability of materials that can bind selectively to a target molecule is the key to unlocking a host of new technologies. Molecular imprinting is an established technology, which allows the synthesis of materials containing highly specific receptor sites having an affinity for a target compound. For example, molecularly imprinted materials can mimic some of the functions of enzymes through the creation of three-dimensional cavities of specific size and shape for biorecognition of bioactive compounds. This volume offers a forum for technical exchange among members of the worldwide community of scientists and engineers who work in the area of molecular imprinting. Researchers from academia, government and industry present results in applications of molecular imprinting related to catalysis, combinatorial and computational methods, new monomers and recognition strategies, sensors, drug discovery and therapy, and new molecular imprinting formats.

Thermoelectric Materials 2003: Volume 793

Thermoelectric Materials 2003: Volume 793
Author: G. S. Nolas
Publisher:
Total Pages: 498
Release: 2004-03-17
Genre: Science
ISBN:

The measure of a thermoelectric material is given by the material's figure of merit. For over three decades the best thermoelectric materials had a ZT = 1. Recently, however, there are reports of new methods of materials synthesis that result in improvements beyond this performance. In addition, rapid characterization, as well as faster theoretical modeling of thermoelectric materials, has resulted in a more rapid evaluation of new materials. This book offers a look at these results and provides a benchmark for the current state in the field of thermoelectric materials research and development. The focus is on new and innovative directions that will lead to the next generation thermoelectric materials for small-scale refrigeration and power generation applications. The book emphasizes the multidisciplinary nature of the research needed to advance the science and technology of the field. Both theoretical and experimental studies are featured. Topics include: low-dimensional systems and nanocomposites; devices; oxides; skutterudites; complex bulk materials and measurements; novel approaches; and thermoelectric materials and technology.

Mechanical Properties of Nanostructured Materials and Nanocomposites

Mechanical Properties of Nanostructured Materials and Nanocomposites
Author: Materials Research Society. Fall Meeting
Publisher:
Total Pages: 442
Release: 2004
Genre: Technology & Engineering
ISBN:

Papers from a December 2003 symposium review and discuss the science and technology of nanostructured materials and nanocomposites, with special emphasis placed on the relationships between their fabrication, structure, strength, and ductility. Major themes are nanoscience and nanoengineering of bulk and composite materials, thick coatings, and thin films with enhanced mechanical properties for structural and functional applications. The book will be of interest to researchers and graduate students in nanostructured materials science, and for engineers involved in the production and processing of nanocrystalline materials and nanocomposites for structural and functional applications. Annotation : 2004 Book News, Inc., Portland, OR (booknews.com).

Continuous Nanophase and Nanostructured Materials: Volume 788

Continuous Nanophase and Nanostructured Materials: Volume 788
Author: Sridhar Komarneni
Publisher:
Total Pages: 698
Release: 2004-03-16
Genre: Technology & Engineering
ISBN:

This book focuses on recent advances in nanostructured and nanophase materials and their applications. Nanostructured materials consist of domains of less than 100nm and include atom clusters and cluster assemblies, one- and two-dimensionally modulated layers and three-dimensional structures. The term 'nanophase' refers to structures comprised of domains or particles of a single material that are typically less than 100nm, whereas 'nanocomposite' refers to a composite of more than one nanophase. Nanoscale materials can be engineered as homogeneous or porous ceramics, metals, metal oxides, semiconductors, organic polymers, or as composite materials containing these components. This book brings together scientists from many disciplines to share and discuss advances in the field. Topics include: nanophase materials; nanocomposite materials; nanoporous materials; nanostructured materials; applications and properties of nanostructured materials; carbon nanotubes; nanostructured thin films and coatings; and theoretical and modeling studies of nanostructured materials.