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Physical sciences and engineering, as well as biological sciences have recently made great strides in their respective fields. More importantly, the cross-fertilization of ideas, paradigms and methodologies have led to the unprecedented technological developments in areas such as information processing, full colour semiconductor displays, compact biosensors and controlled drug discovery to name a few. Top experts in their respective fields have come together to discuss the latest developments and the future of micro-nano electronics. They investigate issues to be faced in ultimate limits such as single electron transitors; zero dimensional systems for unique properties; thresholdless lasers, electronics based on inexpensive and flexible plastic chips; cell manipulation; biosensors; DNA based computers; quantum computing; DNA sequencing chips; micro fluidics; nanomotors based on molecules; molecular electronics and recently emerging wide bandgap semiconductors for emitters, detectors and power amplifiers. Contributions from top experts in this field Covers a wide range of topics
Physical sciences and engineering, as well as biological sciences have recently made great strides in their respective fields. More importantly, the cross-fertilization of ideas, paradigms and methodologies have led to the unprecedented technological developments in areas such as information processing, full colour semiconductor displays, compact biosensors and controlled drug discovery to name a few. Top experts in their respective fields have come together to discuss the latest developments and the future of micro-nano electronics. They investigate issues to be faced in ultimate limits such as single electron transitors; zero dimensional systems for unique properties; thresholdless lasers, electronics based on inexpensive and flexible plastic chips; cell manipulation; biosensors; DNA based computers; quantum computing; DNA sequencing chips; micro fluidics; nanomotors based on molecules; molecular electronics and recently emerging wide bandgap semiconductors for emitters, detectors and power amplifiers. Contributions from top experts in this field Covers a wide range of topics
This book discusses the basic physics of semiconductor macroatoms at the nanoscale as well as their potential application as building blocks for the realization of new-generation quantum devices.It provides a review on state-of-the art fabrication and characterization of semiconductor quantum dots aimed at implementing single-electron/exciton devices for quantum information processing and communication. After an introductory chapter on the fundamentals of quantum dots, a number of more specialized review articles presents a comprehensive picture of this rapidly developing field, specifically including strongly multidisciplinary topics such as state-of-the-art nanofabrication and optical characterization, fully microscopic theoretical modeling of nontrivial many-body processes, as well as design and optimization of novel quantum-device architectures.Sample Chapter(s)
Presents the first unified exposition of the physical principles at the heart of NanoMEMS-based devices and applications Provides newcomers with a much needed coherent scientific base for undertaking study and research in this field Takes great pains in rendering transparent advanced physical concepts and techniques, such as quantum information, second quantization, Luttinger liquids, bosonization, and superconductivity
Carbon Nanotubes are among the strongest, toughest, and most stiff materials found on earth. Moreover, they have remarkable electrical and thermal properties, which make them suitable for many applications including nanocomposites, electronics, and chemical detection devices. This book is the effort of many scientists and researchers all over the world to bring an anthology of recent developments in the field of nanotechnology and more specifically CNTs. In this book you will find: - Recent developments in the growth of CNTs- Methods to modify the surfaces of CNTs and decorate their surfaces for specific applications- Applications of CNTs in biocomposites such as in orthopedic bone cement- Application of CNTs as chemical sensors- CNTs for fuelcells- Health related issues when using CNTs
This first book to focus on the use of SPMs to actively manipulate molecules and nanostructures on surfaces goes way beyond conventional treatments of scanning microscopy merely for imaging purposes. It reviews recent progress in the use of SPMs on such soft materials as polymers, with a particular emphasis on chemical discrimination, mechanical properties, tip-induced reactions and manipulations, as well as their nanoscale electrical properties. Detailing the practical application potential of this hot topic, this book is of great interest to specialists of wide-ranging disciplines, including physicists, chemists, materials scientists, spectroscopy experts, surface scientists, and engineers.