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Handbook of self assembled semicondu...
~
Henini, Mohamed.
Handbook of self assembled semiconductor nanostructures for novel devices in photonics and electronics
紀錄類型:
書目-電子資源 : 單行本
正題名/作者:
Handbook of self assembled semiconductor nanostructures for novel devices in photonics and electronics/ edited by Mohamed Henini.
其他作者:
Henini, Mohamed.
出版者:
Amsterdam ;Elsevier,2008.
面頁冊數:
xvii, 841 p. :ill. ;25 cm.
標題:
Nanostructured materials. -
電子資源:
An electronic book accessible through the World Wide Web; click for information
ISBN:
9780080560472 (electronic bk.)
ISBN:
0080560474 (electronic bk.)
ISBN:
9780080463254 (paper)
ISBN:
0080463258 (paper)
Handbook of self assembled semiconductor nanostructures for novel devices in photonics and electronics
Handbook of self assembled semiconductor nanostructures for novel devices in photonics and electronics
[electronic resource] /edited by Mohamed Henini. - Amsterdam ;Elsevier,2008. - xvii, 841 p. :ill. ;25 cm.
Includes bibliographical references and index.
Self-Organized Quantum Dot Multilayer Structures -- InAs Quantum Dots on AlxGa1-xAs Surfaces and in an AlxGa1-xAs Matrix -- Optical Properties of In(Ga)As/GaAs Quantum Dots for Optoelectronic Devices -- Cavity Quantum Electrodynamics with Semiconductor Quantum Dots -- InAs Quantum Dot Formation Studied at the Atomic Scale by Cross-sectional Scanning Tunnelling Microscopy -- Growth and Characterization of Structural and Optical Properties of Polar and Non-polar GaN Quantum Dots -- Optical and Vibrational Properties of Self-Assembled GaN Quantum Dots -- GaSb/GaAs Quantum Nanostructures by Molecular Beam Epitaxy -- Growth and Characterization of ZnO Nano- and Microstructures -- Miniband-related 1.4 - 1.8 m Luminescence of Ge/Si Quantum Dot Superlattices -- Effects of the Electron-Phonon Interaction in Semiconductor Quantum Dots -- Slow Oscillation and Random Fluctuation in Quantum Dots: Can we Overcome? -- Radiation Effects in Quantum Dot Structures -- Probing and Controlling the Spin State of Single Magnetic Atoms in an Individual Quantum Dot -- Quantum Dot Charge and Spin Memory Devices -- Engineering of Quantum Dot Nanostructures for Photonic Devices -- Advanced Growth Techniques of InAs-system Quantum Dots for Integrated Nanophotonic Circuits -- Nanostructured Solar Cells -- Quantum Dot Superluminescent Diodes -- Quantum Dot-based Mode-locked Lasers and Applications -- Quantum Dot Infrared Photodetectors by Metal-Organic Chemical Vapour Deposition -- Quantum Dot Structures for Multi-band Infrared and Terahertz Radiation Detection -- Optically Driven Schemes for Quantum Computation Based on Self-assembled Quantum Dots -- Quantum Optics with Single CdSE/ZnS Colloidal Nanocrystals -- PbSe Core, PbSe/PbS and PbSe/PbSe/PbSexS1-x Core-Shell Nanocrystal Quantum Dots: Properties and Applications -- Semiconductor Quantum Dots for Biological Applications -- Quantum Dot Modification and Cytotoxicity -- Colloidal Quantum Dots (QDs) in Optoelectronic Devices - Solar Cells, Photodetectors, Light-emitting Diodes.
The self-assembled nanostructured materials described in this book offer a number of advantages over conventional material technologies in a wide range of sectors. World leaders in the field of self-organisation of nanostructures review the current status of research and development in the field, and give an account of the formation, properties, and self-organisation of semiconductor nanostructures. Chapters on structural, electronic and optical properties, and devices based on self-organised nanostructures are also included. Future research work on self-assembled nanostructures will connect diverse areas of material science, physics, chemistry, electronics and optoelectronics. This book will provide an excellent starting point for workers entering the field and a useful reference to the nanostructured materials research community. It will be useful to any scientist who is involved in nanotechnology and those wishing to gain a view of what is possible with modern fabrication technology. Mohamed Henini is a Professor of Applied Physics at the University of Nottingham. He has authored and co-authored over 750 papers in international journals and conference proceedings and is the founder of two international conferences. He is the Editor-in-Chief of Microelectronics Journal and has edited three previous Elsevier books. Key Features: - Contributors are world leaders in the field - Brings together all the factors which are essential in self-organisation of quantum nanostructures - Reviews the current status of research and development in self-organised nanostructured materials - Provides a ready source of information on a wide range of topics - Useful to any scientist who is involved in nanotechnology - Excellent starting point for workers entering the field - Serves as an excellent reference manual.
Electronic reproduction.
Amsterdam :
Elsevier Science & Technology,
2008.
Mode of access: World Wide Web.
ISBN: 9780080560472 (electronic bk.)Subjects--Topical Terms:
165292
Nanostructured materials.
Index Terms--Genre/Form:
172687
Electronic books.
LC Class. No.: TA418.9.N35 / H36 2008eb
Dewey Class. No.: 621.38152
Handbook of self assembled semiconductor nanostructures for novel devices in photonics and electronics
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Self-Organized Quantum Dot Multilayer Structures -- InAs Quantum Dots on AlxGa1-xAs Surfaces and in an AlxGa1-xAs Matrix -- Optical Properties of In(Ga)As/GaAs Quantum Dots for Optoelectronic Devices -- Cavity Quantum Electrodynamics with Semiconductor Quantum Dots -- InAs Quantum Dot Formation Studied at the Atomic Scale by Cross-sectional Scanning Tunnelling Microscopy -- Growth and Characterization of Structural and Optical Properties of Polar and Non-polar GaN Quantum Dots -- Optical and Vibrational Properties of Self-Assembled GaN Quantum Dots -- GaSb/GaAs Quantum Nanostructures by Molecular Beam Epitaxy -- Growth and Characterization of ZnO Nano- and Microstructures -- Miniband-related 1.4 - 1.8 m Luminescence of Ge/Si Quantum Dot Superlattices -- Effects of the Electron-Phonon Interaction in Semiconductor Quantum Dots -- Slow Oscillation and Random Fluctuation in Quantum Dots: Can we Overcome? -- Radiation Effects in Quantum Dot Structures -- Probing and Controlling the Spin State of Single Magnetic Atoms in an Individual Quantum Dot -- Quantum Dot Charge and Spin Memory Devices -- Engineering of Quantum Dot Nanostructures for Photonic Devices -- Advanced Growth Techniques of InAs-system Quantum Dots for Integrated Nanophotonic Circuits -- Nanostructured Solar Cells -- Quantum Dot Superluminescent Diodes -- Quantum Dot-based Mode-locked Lasers and Applications -- Quantum Dot Infrared Photodetectors by Metal-Organic Chemical Vapour Deposition -- Quantum Dot Structures for Multi-band Infrared and Terahertz Radiation Detection -- Optically Driven Schemes for Quantum Computation Based on Self-assembled Quantum Dots -- Quantum Optics with Single CdSE/ZnS Colloidal Nanocrystals -- PbSe Core, PbSe/PbS and PbSe/PbSe/PbSexS1-x Core-Shell Nanocrystal Quantum Dots: Properties and Applications -- Semiconductor Quantum Dots for Biological Applications -- Quantum Dot Modification and Cytotoxicity -- Colloidal Quantum Dots (QDs) in Optoelectronic Devices - Solar Cells, Photodetectors, Light-emitting Diodes.
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The self-assembled nanostructured materials described in this book offer a number of advantages over conventional material technologies in a wide range of sectors. World leaders in the field of self-organisation of nanostructures review the current status of research and development in the field, and give an account of the formation, properties, and self-organisation of semiconductor nanostructures. Chapters on structural, electronic and optical properties, and devices based on self-organised nanostructures are also included. Future research work on self-assembled nanostructures will connect diverse areas of material science, physics, chemistry, electronics and optoelectronics. This book will provide an excellent starting point for workers entering the field and a useful reference to the nanostructured materials research community. It will be useful to any scientist who is involved in nanotechnology and those wishing to gain a view of what is possible with modern fabrication technology. Mohamed Henini is a Professor of Applied Physics at the University of Nottingham. He has authored and co-authored over 750 papers in international journals and conference proceedings and is the founder of two international conferences. He is the Editor-in-Chief of Microelectronics Journal and has edited three previous Elsevier books. Key Features: - Contributors are world leaders in the field - Brings together all the factors which are essential in self-organisation of quantum nanostructures - Reviews the current status of research and development in self-organised nanostructured materials - Provides a ready source of information on a wide range of topics - Useful to any scientist who is involved in nanotechnology - Excellent starting point for workers entering the field - Serves as an excellent reference manual.
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