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The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
Central to bandgap engineering, or more precisely, 'wave-function engineering,' is the concept that, by spatially varying the composition and doping of semiconductors over distances ranging from a few micrometers down to one monolayer, one can tailor the electronic band structure in a nearly arbitrary and continuous way using epitaxial growth techniques. The objective of this book is to review the progress on interband and intersubband transitions in semiconductors including III-V, IV and II-VI materials and quantum structures, as well as to cover the progress on light sources, detectors, modulators and electronic materials and devices. This book brings together internationally recognized researchers to report on their most recent results and newly gained insights and to provide an up-to-date snapshot of optoelectronics and related fields in 2004/2005. The book covers a wide range of topics spanning opto- and microelectronic materials, growth and synthesis, devices, experimental techniques, modeling tools, and applications. Wavelength ranges span from the UV to the THz, and into the GHz modulation range.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
Recent years have witnessed dramatic success in the development of semiconductor materials and related quantum structures for applications in electronics and optoelectronics. Progress has also been made in manufacturable (low cost, high volume) growth and processing of semiconductor materials for such device structures. Novel approaches have been proposed to integrate compound semiconductor devices with conventional silicon processing. This book provides a comprehensive overview of the progress on growth, properties and processing of semiconductor materials and quantum structures, as well to underscore the progress on devices such as transistors, light sources, detectors and modulators. Brought to maturity, these devices will likely see widespread application in infrared imaging, chemical and biological sensing, surveillance, short links, space-based applications, solar cells, high-bandwidth communications, and more. Topics include: electronic devices; Si/Ge devices and technology; zinc oxide and related compounds; emitters, lasers and photovoltaics; nanostructures; innovative materials and devices; detectors; and III-nitride materials and devices.
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.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
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.
This volume, a continuation of the MEMS, NEMS, and molecular machines symposium of the 2002 MRS Fall Meeting, is devoted to the investigation of materials and device behavior at the micro-, nano-, and molecular scale as well as interdisciplinary work futhering the design and development of micro-, nano-, and molecular devices. New materials and fabrication techniques are introduced, and ongoing issues such as reliability, surface effects, processing and packaging, biocompatibility, and stability are discussed. Projects coupling micro-and nanoscale approaches to solve ongoing issues in the development of small-scale systems are featured. Topics include: nanotechnology; alternative fabrication techniques; micro- and nanofluidics; applied micro- and nanotechnology; mechanical properties; biotechnology and nanotechnology; alternative materials and metrology; and surface engineering and tribology.
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.