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About the Series: Bioelectric Engineering presents state-of-the-art discussions on modern biomedical engineering with respect to applications of electrical engineering and information technology in biomedicine. This focus affirms Springer’s commitment to publishing important reviews of the broadest interest to biomedical engineers, bioengineers, and their colleagues in affiliated disciplines. Recent volumes have covered modeling and imaging of bioelectric activity, neural engineering, biosignal processing, bionanotechnology, among other topics. Key Features of this Volume: Neural Engineering, Bioelectric Engineering Volume 2, contains reviews and discussions of contemporary and relevant topics by leading investigators in the field. It is intended to serve as a textbook at the graduate and advanced undergraduate level in a bioengineering curriculum. The topics include: – Neural Prostheses – Neural Interfacing – Neural Robotics – Functional Neural Stimulation – Neural Imaging – Neural Computation – Neural Networks – Neural System Identification and Prediction – Retinal Neuroengineering This principles and applications approach to neural engineering is essential reading for all academics, biomedical engineers, neuroscientists, neurophysiologists, and industry professionals wishing to take advantage of the latest and greatest in this emerging field. About the Editor: Bin He, PhD., IEEE Fellow, is a leading figure in the field of bioelectric engineering. An internationally recognized scientist with numerous publications, Dr. He has served as the President of the International Society of Bioelectromagnetism and as an Associate or Guest Editor for nine international journals in the field of biomedical engineering. Dr. He is currently Professor of Biomedical Engineering at the University of Minnesota.
Nanostructures. --- Biomedical materials. --- Biotechnology. --- Chemical engineering --- Genetic engineering --- Biocompatible materials --- Biomaterials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- Nanoscience --- Physics --- Medicine. --- Biomedical engineering. --- Neurosciences. --- Radiology, Medical. --- Biomedicine general. --- Biomedical Engineering and Bioengineering. --- Biological and Medical Physics, Biophysics. --- Imaging / Radiology. --- Clinical radiology --- Radiology, Medical --- Radiology (Medicine) --- Medical physics --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Pathology --- Physicians --- Biophysics. --- Biological physics. --- Radiology. --- Biomedicine, general. --- Health Workforce --- Radiological physics --- Radiation --- Biological physics --- Biology
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Biological Nanostructures and Applications of Nanostructures in Biology: Electrical, Mechanical, and Optical Properties contains reviews and discussions of contemporary and relevant topics dealing with the interface between the science and technology of nanostructures and the science of biology. Moreover, this book supplements these past groundbreaking discoveries with discussions of promising new avenues of research that reveal the enormous potential of emerging approaches in nanobiotechnology. The topics include: - Biomedical applications of semiconductor quantum dots, - Integrating and tagging biological structures with nanoscale quantum dots, - Applications of carbon nanotubes in bioengineering, - Nanophysical properties of living cells, - Bridging natural nanotubes with fabricated nanotubes, - Bioinspired approaches to building nanoscale devices and systems, - Hairpin formation in polynucleotides. This state-of-the-art survey of key developments in nanotechnology - as they apply to bioengineering and biology - is essential reading for all academics, biomedical engineers, medical physicists, and industry professionals wishing to take advantage of the latest developments and highly-promising discoveries in nanoscience underlying applications in bioengineering and biology.
Nanostructures. --- Biomedical materials. --- Biotechnology. --- Life sciences. --- Biomedical engineering. --- Engineering. --- Radiology, Medical. --- Life Sciences, general. --- Biomedical Engineering and Bioengineering. --- Biological and Medical Physics, Biophysics. --- Engineering, general. --- Imaging / Radiology. --- Biophysics. --- Biological physics. --- Radiology. --- Radiological physics --- Physics --- Radiation --- Construction --- Industrial arts --- Technology --- Biological physics --- Biology --- Medical sciences --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- Biosciences --- Sciences, Life --- Science --- Biomedical materials --- Biotechnology --- Biocompatibility. --- Research.
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This book focuses on the theory of phonon interactions in nanoscale structures with particular emphasis on modern electronic and optoelectronic devices. The continuing progress in the fabrication of semiconductor nanostructures with lower dimensional features has led to devices with enhanced functionality and even novel devices with new operating principles. The critical role of phonon effects in such semiconductor devices is well known. There is therefore a great need for a greater awareness and understanding of confined phonon effects. A key goal of this book is to describe tractable models of confined phonons and how these are applied to calculations of basic properties and phenomena of semiconductor heterostructures. The level of presentation is appropriate for undergraduate and graduate students in physics and engineering with some background in quantum mechanics and solid state physics or devices. A basic understanding of electromagnetism and classical acoustics is assumed.
Nanostructures. --- Phonons. --- Quasiparticles (Physics) --- Lattice dynamics --- Nanoscience --- Physics
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This volume provides valuable summaries on many aspects of advanced semiconductor heterostructures and highlights the great variety of semiconductor heterostructures that has emerged since their original conception. As exemplified by the chapters in this book, recent progress on advanced semiconductor heterostructures spans a truly remarkable range of scientific fields with an associated diversity of applications. Some of these applications will undoubtedly revolutionize critically important facets of modern technology. At the heart of these advances is the ability to design and control the p
Heterostructures. --- Semiconductors --- Crystals --- Superlattices as materials --- Materials.
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This volume includes highlights of the theories underlying the essential phenomena occurring in novel semiconductor lasers as well as the principles of operation of selected heterostructure lasers. To understand scattering processes in heterostructure lasers and related optoelectronic devices, it is essential to consider the role of dimensional confinement of charge carriers as well as acoustical and optical phonons in quantum structures. Indeed, it is important to consider the confinement of both phonons and carriers in the design and modeling of novel semiconductor lasers such as the tunnel
Semiconductor lasers. --- Optoelectronic devices. --- Photo electric devices --- Photo electronic devices --- Photoelectronic devices --- Electronic apparatus and appliances --- Optical instruments --- Electrooptical devices --- Integrated optics --- Lasers --- Photonic devices --- Photonic instruments
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Get to grips with the fundamental optical and optoelectronic properties of nanostructures. This comprehensive guide makes a wide variety of modern topics accessible, and includes up-to-date material on the optical properties of monolayer crystals, plasmonics, nanophotonics, UV quantum well lasers, and wide bandgap materials and heterostructures. The unified, multidisciplinary approach makes it ideal for those in disciplines spanning nanoscience, physics, materials science, and optical, electrical and mechanical engineering. Building on work first presented in Quantum Heterostructures (Cambridge, 1999), this volume draws on years of research and teaching experience. Rigorous coverage of basic principles makes it an excellent resource for senior undergraduates, and detailed mathematical derivations illuminate concepts for graduate students, researchers and professional engineers. The examples with solutions included in the text and end-of-chapter problems allows the students to use this text to enhance their understanding.
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