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zhaokelun1975

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[资源] 纳米科技经典图书资料推荐介绍专栏

Handbook of Nanostructured Biomaterials
and Their Applications in Nanobiotechnology



2-Volume Set
Edited by
Hari Singh Nalwa
Editor-in-Chief,
Journal of Nanoscience and Nanotechnology



2005 ca. 1000 pages, Hardcover
ISBN: 1-58883-004-7
US$899.00




Handbook of Nanostructured Biomaterials and Their Applications in Nanobiotechnology brings together under a single cover all aspects of the nanostructured biomaterials including all types of nanoscale biomaterials, biocompatible surfaces, functional bioengineered materials, polypeptides, bioceramics, biopolymers, organic-inorganic hybrid biomaterials, nanocomposites, biological macromolecules such as proteins, peptides, nucleic acids, DNA-based self-assemblies, biomolecules, cells, and glycans, biochips, biocompatibility aspects of materials, interactions between biomaterials, cells, tissue and organs, cellular matrix interaction, drug delivery, biomaterials for orthopedic and cardiovascular applications, applications in drug and protein delivery, BioMEMS, dentistry, bone, bioanalysis, biosensors, biomedical implantation, biomechanics, bioinstrumentation, nanoscale physiology and pathology, nanoscale proteomics, instrumentation techniques for nanobioscience, nanoscale cellular and tissue engineering, etc. Broadly speaking, all important aspects dealing with the chemistry, physics, biology and engineering of nanostructured biomaterials and their applications in nanobiotechnology are covered. The two-volumes contain over 30 state-of-the-art review chapters written by over 70 internationally renowned experts from 10 countries. The handbook has been divided into two thematic volumes.
CONTENTS
Volume 1: Biomaterials
Optical Properties and Wettability of Nanostructured Biomaterials: Moth Eyes, Lotus Leaves,
and Insect Wings, G. Palasantzas, J. Th. M. De Hosson, K. F. L. Michielsen,
and D. G. Stavenga, The Netherlands
Glycolipid-Based Bionanomaterials, Dai Kitamoto, Kazunori Toma
and Masakatsu Hato, Japan
Biomineralized Inorganic Nanomaterials, Shu-Hong Yu, China
Biointerface, Bioconjugation, and Biomatrix Based on Bioinspired Phospholipid Polymers,
Kazuhiko Ishihara and Junji Watanabe, Japan
Functional Imaging of the Hierarchical Structure/Property Relationships in Bone, Dentin and the Dentin/Adhesive Interface, J. Lawrence Katz, Y. Wang, S. Bumrerraj, T. Nomura, A. Misra, Steven
J. Eppell, M. Tabib-Azar, and Paulette Spencer, USA
Nanostructure and Dynamics of Biocompatible Surfactant Monolayers and Bilayers,
H. E. Warriner, A. T. Ngo, J. A. Zasadzinski and Junqi Ding, USA
Interactions between Cells and Synthetic Nanofiber Extracellular Matrix, T. Yong, C. Xu
and S. Ramakrishna, Singapore
Interactions of Cells with Biomaterial Nanostructured Surfaces, Wei-Bor Tsai
and Chi-An Dai, Taiwan
Nanostructured Surface Roughness for the Control of Protein and Cell Functions,
Thomas J. Webster, USA
Imaging and Assembly of Nanoparticles in Biological Systems, Xiao-Hong Nancy Xu
and Rudrax N. Patel, USA
Nanostructure in Natural Bone and its Mimetic Fabrication, Fizhai Cui, Wei Zhang
and In-seop Lee, China/South Korea
Characterization of Physical Properties of Living Cells with Atomic Force Microscopy,
Adel Alhadlaq, Rupal Patel, Arnold I. Caplan, Donald P. Lennon, Naam T. Lewis
and Jeremy Mao, USA
Nanoscale Physico-Chemical Reactions at Bioceramics-Bone Tissues Interfaces,
E. Jallot, France
Resorbable Biomaterials, Yoshito Ikada, Japan
and much more …
Volume 2: Applications in Nanobiotechnology
Optical Nanocluster Chips and Arrays, Thomas G.M. Schalkhammer, The Netherlands
Functional Polymers for Bone Tissue Engineering Applications, Jie Song
and Carolyn R. Bertozzi, USA
Nanostructured Non-fouling Films for BioMEMS Applications, S. Sharma, K. C. Popat,
and Tejal A. Desai, USA
Inorganic/Polymer Nanocomposites for Dental Restorative and Bone Replacement Applications,
Qing Liu, USA
Self-assembling Nanostructured Injectable Polymeric Gels for Drug Delivery, M. Determan
and S. K. Mallapragada, USA
Engineering Surface-Erodible Polyanhydrides with Tailored Microstructure for Controlled Drug
and Protein Delivery, Amy S. Determan and Balaji Narasimhan, USA
Peptide Self-assembly and its Application in Drug Delivery, Pu Chen, Canada
Bioactive Nanomaterials in Bone Grafting and Tissue Engineering, R. Murugan
and S. Ramakrishna, Singapore
Nanostructured Scaffolds for Tissue Engineering and Regeneration, Victor J. Chen, Guobao Wei
and Peter X. Ma, USA
Polymer Nanofibers and Their Applications in Bioengineering, M. Kotaki, Z.-M. Huang,
S. Ramakrishna, Singapore
Nucleic Acid Engineered Nanomaterials and Nanodevices, Dan Luo and Yougen Li, USA
DNA-based Artificial Nanostructures: Fabrication, Properties, and Applications, Y. Sun
and Ching-Hwa Kiang, USA
Vesicles and Liposomes in Sensor Technology, Stavroula Sofou and James L. Thomas, USA
Protein Patterning for Applications in Biomaterials and Biodevices, K. G. Pruden and A. Panitch, USA
and much more …
KEY FEATURES
The first reference work ever published on nanostructured biomaterials and their applications.
A unique source of in-depth knowledge of recent advances in applications of nanostructured biomaterials.
Most up-to-date emerging aspects of nanobiomaterials and their applications in the field of nanotechnology.
Contains over 30 state-of-the-art chapters written by over 70 internationally renowned experts from 10 countries.
About 5,000 bibliographic citations and hundreds of illustrations, figures, tables, chemical structures and equations.
The handbook is intended for a wide audience including researchers, students, and professors working in the field of biomaterials, nanotechnology, materials science, polymer science and engineering, biomedical engineering, biophysics, biochemistry, etc.

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liminfang


Nanotechnology in Catalysis

Nanotechnology in Catalysis Volumes 1 and 2Series: Nanostructure Science and Technology
Volume package Nanotechnology in Catalysis
Zhou, Bing; Hermans, Sophie; Somorjai, Gabor A. (Eds.)

2004, 555 p., Hardcover
ISBN: 978-0-306-48323-3

About this book
This book is mainly based on the first and second symposia on Nanotechnology in Catalysis held in 2001 and 2002, but it also includes several contributions not presented in the symposia to round out the scope of the subject. The contents are the most up to date developments made by researchers all over the world in the catalysis field in this fascinating nanotechnology era. It reflects some of the frontier areas of nanoscience and nanotechnology in fabricating and characterizing catalysts and carrying out studies to prove their superior selectivity and activity. The field of application of nanotechnology for the development of catalysts for green chemistry is likely to grow rapidly during the next decade. This book hopes to contribute to the evolution of nanotechnology in that direction.
Written for:
Researchers, scientists
Table of contents
Volume 1:
1. Catalysis and Nanoscience; J. Grunes, J. Zhu, G.A. Somorjai. 纳米科技世界论坛, Nanoscience and Nanotechnology Worldf1ogf!} ^lVv
2. Novel Catalytic Properties of Bimetallic Surface Nanostructures; N.A. Khan, J.R. Kitchin, V. Schwartz, L.E. Murillo, K.M. Bulanin, J.G. Chen.
3. Molecular Mixed-Metal Clusters as Precursors for Highly Active Supported Bimetallic Nanoparticles; S. Hermans, T. Khimyak, R. Raja, G. Sankar, J.M. Thomas, B.F.G. Johnson.
4. Wet Chemical Synthesis of Nanoparticles; K.S. Nagabhushana, H. Bönnemann.
5. Roadmap to new catalyst system: Palladium nanoparticles; A. Beck, A. Horváth, A. Sárkány, L. Guczi. Ukf!h b
^1F
6. Gold Nanoparticles Formed within Ordered Mesoporous Silica and on Amorphous Silica; R. Kumar, A. Ghosh, C.R. Patra, P. Mukherjee, M. Sastry
7. Multifunctional Catalysts for Singlewall Carbon Nanotube Synthesis; T. Guo.
8. Nickel and Ruthenium Nanoparticles as Catalysts for Growth of Carbon Nanotubes and Nanohorns; J. Geng, B.F.G Johnson.
9. A Novel Route to Prepare Pt-Based Electrocatalysts for Direct Methanol (Ethanol) Fuel Cells; W.J. Zhou, B. Zhou, Z.H. Zhou, W.Z. Li, S.Q. Song, Z. Wei, G.Q. Sun, Q. Xin.
10. Pt-Ru/Carbon Nanocomposites: Synthesis, Characterization and Performance as DMFC Anode Catalysts; W.D. King, E.S. Steigerwalt, G.A. Deluga, J.D. Corn, D.L. Boxall, J.T. Moore, D. Chu, R. Jiang, E.A. Kenik, C.M. Lukehart.
11. Nanostructured Gold and Alloy Electrocatalysts; C.J. Zhong, J. Luo, M.M. Maye, L. Han, N. Kariuki.
12. Shape-Selective Regiospecific and Bifunctional Nanoporous Catalysts for Single Step Solvent Free Processes; R. Raja, J.M. Thomas.
13. Nanofunctionalized Microporous Catalysts; J.F. Haw, D.M. Marcus.
14. New Catalytic Materials for Clean Technology: Structure-Reactivity Relationships in Mesoporous Solid Acid Catalysts; K. Wilson, A.F. Lee, M.A. Ecormier, D.J. Macquarrie, J.H. Clark.
15. Mesoporous Materials as Catalyst Supports; C.L. Chen, C.Y. Mou.
16. Microwave-Induced Synthesis and Fabrication of Nanoporous Materials; S.-E. Park, Y.K. Hwang, D.S. Kim, J.-S. Chang, J.S. Hwang, S.H. Jhung. *
17. Nanosized &bgr; Zeolites and Their Composites as Catalysts for Acylation and Alkane Isomerization; Y.R. Wang, E.Z. Min, X.H. Mu.
Index.
Volume 2:
18. Advanced Electron Microscopy in Developing Nanostructured Heterogeneous Catalysts; J. Liu.
19. Nano-Scale Characterisation of Supported Phases in Catalytic Materials by High Resolution Transmission Electron Microscopy; R.T. Baker, S. Bernal, J.J. Calvino, J.A. Pérez-Omil, C. López-Cartes.
20. Solid State Physics and Synchrotron Radiation Techniques to Understand Heterogeneous Catalysis; D.C. Bazin
21. Design, Building, Characterization and Performance at the Nanometric Scale of Heterogeneous Catalysts; J.-M. Basset, J.-P. Candy, C. Copéret, F. Lefebvre, E.A. Quadrelli.
22. Modelling Transition Metal Nanoparticles: the Role of Size Reduction in Electronic Structure and Catalysis; L. Guczi, Z. Pászti, G. Peto.
23. Nanoscale Dendrimer-Supported Hydrofomylation Catalysts for Membrane Separations; M.L. Tulchinsky, J.C. Hatfield.
24. The Catalytic/Oxidative Effects of Iron Oxide Nanoparticles on Carbon Monoxide and the Pyrolytic Products of Biomass Model Compounds; P. Li, E.J. Shin, D.E. Miser, F. Rasouli, M.R. Hajaligol.
25. Graphitic Nanofilaments: A Superior Support of Ru-Ba Catalyst for Ammonia Synthesis; C.H. Liang, Z.L. Li, J.S. Qiu, Z.B. Wei, Q. Xin, and C. Li.
Index.
链接:http://www.springer.com/west/home?SGWID=4-102-22-33281058-0&changeHeader=true&referer=www.springeronline.com&SHORTCUT=www.springer.com/west/0-306-48323-8
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zhaokelun1975

木虫 (著名写手)
★ ★ ★ ★ ★ ★
popsheng(金币+6):辛苦可嘉!
Handbook of Theoretical
and Computational Nanotechnology



10-Volume Set
Edited by
Michael Rieth and Wolfram Schommers Forschungszentrum Karlsruhe, Germany
Foreword by
Professor Pierre-Gilles de Gennes, Nobel Prize Laureate


2006 ca.8,000 pages, Hardcover
ISBN: 1-58883-042-X
US$5975.00


FROM THE FOREWORD
"Nanoscience is fashionable. All administrations in the Western world have stressed their interest in nano-objects and nanotechnologies. …The aim of the present handbook is to help us with the tools by suitable modelizations. It is written by leading experts, starting from general theoretical principles and progressing to detailed recipes. …Soon after the first wave, including this handbook, a certain form of nano-industry may be born."
                                                                    Professor Pierre-Gilles de Gennes, Nobel Prize Laureate
ABOUT THIS HANDBOOK
The future applications of nanotechnology in high-tech industries require deep understanding of the theoretical and computational aspects of all kinds of materials and devices at a nanometer scale. Handbook of Theoretical and Computational Nanotechnology is the first single reference source ever published in field that offers such an unified approach covering all of the major topics dealing with theory, modeling, design and simulations of nanostructured materials and nanodevices, quantum computing, computational chemistry, physics and biology, nanomechanics, nanomachines, nanoelectronics, nanoprocesses, nanomagnetism, nano-optics, nanomedicines, nanobiotechnology, etc. This 10-volume (ca. 8,000 pages) handbook provides the first ideal introduction and an up-to-date survey of the fascinating new developments and interdisciplinary activities in the whole field presented by scientists working in different subject areas of science, engineering and medicine. This handbook is the most profound publication on this topic- the first treatment of the computational nanotechnology. This outstanding handbook presented by 265 world's leading scientists, is the most significant academic title ever published in this research field. This handbook has been divided into 10 thematic volumes by documenting computational treatment of nanomaterials and nanodevices.
CONTENTS (10-Volume Set, ca. 8,000 pages)
Atomic Design, Atomistic Modeling, Quantum Computers, ab Initio Methods, Atom Nano-optics, Computational Nanoelectronics, Computational Nanotechnology, Molecular Devices, Molecular Machines, Nanosurfaces, Bio-Molecular Motors, Molecular Motors, Molecular Dynamics, Meshfree Methods, Density Matrix Renormalization Method, Finite Element Method, Maxwell Solvers, Bionanotechnology, Embedded Atom Method, Tight-Binding Molecular Dynamics Method, Computational Modeling, Statistical Mechanical Modeling, Linear-Scaling Quantum Mechanical Methods, Equivalent-Continuum Modeling of Nanomaterials, Self-consistent P3M Simulation of Ion Channels, Multiscale Simulations of Nanomaterials and Nanodevices, Hierarchical Models of Nanomechanics and Micromechanics, Computational Nanomechanics of Materials, Nanotribology, Adhesion, Nanoindentation, Nanoscale Fracture Processes, Transport Phenomena, Proton and Electron Tranfer Processes, Flow Modeling in Fullerenes and Nanotubes, Atomistic Modeling of Nanoprous Materials, Nano-thermodyanamics, Quantum Chemistry, Computational Biology, Protein Folding, Computational Studies of DNA and RNA, Enzymes, Enzyme-Mimetics, Enzyme-Catalyzed Reactions, Nanomagnetics, Medical Nanorobotics, Biological Nanotubes, Design of proteins, Nanomedicines, Drug Design and Delivery, Ligand Docking, Computational Models for Genetics and Neurogenetics, Neuro-Genetic Information Processing, Nonlinear Optical Properties of Carbon Nanostructures, Optical Properties of Nanoclusters and Semiconductor Nanostructures, Modeling of Photonic Crystals and Nanostructures, Quantum Optics, Theoertical Physics, Computational Micromagnetics, Magnetic Nanomaterials and Nanodevices, Self-Assemblies, Modeling of Polymer Nanocomposites, Carbon Nanotube Composites, Diamonds, Fullerenes and Endofullerenes, Carbon Nanocones, Doped Nanomaterials, Superconducting Nanostructures, Embedded Quantum Dots and Nanowires, Molecular Wires, Nanocrystals, Computer Simulation of Surfaces, Conjugated Organic Polymers, Monte Carlo Simulations, Nano-thermodynamics of Surfaces, Mechanical Properties of Polymer-Carbon Nanotube Composites, Single and Multi-Wall Carbon Nanotubes, Ferroelectric Nanostructures, Silicon-Based Nanodevices, Single-Electron Devices and Nanocircuits, Single-Electron Transistors, Quantum Dot Lasers, Modeling of Nanodevices, Modeling of MEMS and NEMS, Biomechanism, Nanomedicines, Computational Chemistry, Quantum chemistry, Molecular Design, Nanomedicines and Nanodrugs design, Computational methods and Simulation Techniques from ab initio to Multiscale, Algorithms, Nanoscale Analysis of Defects, diffusion, Cascades, and Irradiation, Nanomembranes, Nanocatalysis, Nanometals, Polymer Nanostructures, Liquid Crystals, Nanocolloids, Monolayer and Multilayers, Tthin Films, Nanoengineering and Nanodesign Nano-CAD, Luminescence, Computational Methods for Simulating Quantum Computers, Wigner Function Based Device Modeling, etc.
10-VOLUME SET ( ca. 8,000 pages)
Volume 1: Basic Concepts, Nanomachines and Bionanodevices
Volume 2: Atomistic Simulations - Algorithms and Methods
Volume 3: Quantum and Molecular Computing, and Quantum Simulations
Volume 4: Nanomechanics and Multiscale Modeling
Volume 5: Transport Phenomena and Nanoscale Processes
Volume 6: Bioinformatics, Nanomedicine and Drug Delivery
Volume 7: Magnetic Nanostructures and Nano-optics
Volume 8: Functional Nanomaterials, Nanoparticles and Polymer Nanostructures
Volume 9: Nanocomposites, Nano-Assemblies, and Nanosurfaces
Volume 10: Nanodevice Modeling and Nanoelectronics
KEY FEATURES
The World's first handbook ever published in the field of theoretical and computational nanotechnology .
The first comprehensive reference dedicated to all disciplines of science, engineering. and medicine.
Most up-to-date reference source drawing on the past two decades of pioneering research.
About 140 Review chapters written by world leading scientists familiar with the current trends of nanotechnology.
8,000 pages written by 265 authors from 30 countries, truly international.
26,000 references, 4124 figures, 374 tables, and thousands of mathematical equations and formula.
Clearly written, self-contained, timely, authoritative, and most comprehensive contributions.
Extensive cross-refereeing in each chapter provides reader with a broader range of knowledge.
Multidisciplinary reference source for students, scientists, engineers, biologists, medical experts and related professionals.
READERSHIP
This handbook is an invaluable reference source for scientists, engineers and biologists working in the field of theoretical and computational nanotechnology and for individual research groups, libraries in the universities and industrial institutions, government, independent institutes, R&D and defense research laboratories. The handbook is intended for a broad audience working in the fields of quantum chemistry, physics, biology, materials science, medicine, electrical and electronics engineering, mechanical engineering, optical science, ceramic and chemical engineering, device engineering, aerospace engineering, computer science and technology, information technology, bioinformatics, biotechnology, medical sciences, surface science, polymer science and engineering.
ABOUT THE EDITORS
Dr. Michael Rieth is a Research Scientist at the Institute of Materials Research I(IMF-I) in the Forschungszentrum Karlsruhe, Germany since 2002. He is Head of the consulting company AIFT, Karlsruhe since 1987. He worked as a Researcher at the Institute of Materials Research II (IMF-II), Forschungszentrum Karlsruhe from 1995-99 and at the Engineering Science Department of University of Patras (Greece) from 1999-2000. He was Product Manager at AMA-Systems, Pforzheim, Germany from 2000-01. He received his M.Sc. (germ. Dipl. Ing.) degree in Electrical Engineering from the University of Karlsruhe in 1991 and his Ph.D. in Physics from the University of Patras (Greece) in 2001. Dr. Rieth published 23 research articles in refereed journals, two book chapters and four patents. He is the author of Nano-Engineering in Science and Technology (World Scientific, 2003), and was the Editor-in-Chief of the Journal of Computational and Theoretical Nanoscience (2004-2005). His main scientific interests are in atomistic modeling of metallic nanosystems and materials development for advanced fusion reactor applications.
Professor Dr. Wolfram Schommers is a Theoretical Physicist presently working at the Research Center of Karlruhe in Germany. He is also Professor of Theoretical Physics, Professor of Physics and Materials Sciences and Distinguished Professor in Europe, China and USA. He began his studies of Theoretical Physics at the Technical University of Munich, and continued his course-work at the University of Münster, receiving a Diploma in Physics. After a brief intermezzo in the industry, Prof. Schommers joined the Research Center of Karlsruhe. He received his Ph.D. (Dr. rer. nat.) in Theoretical Physics from the University of Karlsruhe. Prof. Schommers' scientific activities are concentrated on Computational and Theoretical Physics. His main fields of interest include Foundations of Physics, Liquids, Solids and Gases, Superionic Conductors, Surface Science, and Nanophysics as the basis for the investigation of properties nanometer-scale atomic devices, junctions, quantum dots and nanomachines. He has published the results of his research activities and thoughts in various scientific journals (214 articles and book chapters). In particular, Prof. Schommers is author and editor of the following books: Fundamentals of Nanometer Structuring; Structure and Dynamics of Surfaces I and II; Quantum Theory and Pictures of Reality; The Visible and the Invisible; Das Sichtbare und das Unsichtbare; Elemente des Lebens; What is Life?; Formen des Kosmos; Space and Time, Matter and Mind; Symbols, Pictures and Quantum Reality. Prof. Schommers is the Editor-in-Chief of the Journal of Computational and Theoretical Nanoscience (www.aspbs.com/ctn). He is also an editorial board member of various scientific journals, and he is the Principal Editor-in-Charge of the book series Foundations of Natural Science and Technology. He is an invited member of the Humboldt Academy, an invited member of the Academic Board of the Humboldt Society, and an invited member of the Advisory Board of Medical Ethics of the 21th Century.
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zhaokelun1975

木虫 (著名写手)
Molecular Nanoelectronics



Edited by
Mark A. Reed and Takhee Lee
Department of Electrical Engineering, Yale University, USA



May 2003
411 pages, Hardcover
ISBN: 1-58883-006-3
US$395.00


Molecular Nanoelectronics is the first and sole reference source ever published to have overviews of nanoelectronics based on the nanometer scale building blocks such as organic molecules, nanoparticles, nanocrystals, nanotubes and nanowires. This book covers topics on transport theory through nanostructures, processing, self-assembly, device fabrication, and architecture for the nanoelectronic device applications. The state-of-the-art chapters are written by leading experts from academia and industries. It contains about 2,000 bibliographic citations and hundreds of illustrations, figures, tables, chemical structures and equations. Each review chapter is fully cross-referenced introducing some of the most important breakthroughs in molecular nanoelectronic technologies under development today. By introducing all latest research progresses in the molecular nanoelectronics, this book will be a valuable reference to the researchers in solid-state physics, materials science, electrical and electronic engineering, chemistry, and individuals who are interested in the newly emerging field of nanoelectronics. It could be used for a one-semester graduate course in molecular nanoelectronics.
CONTENTS
Molecular Wire Conductance: Some Theoretical and Computational Aspects, A. Troisi
and M. A. Ratner, USA
Unimolecular Electrical Rectifiers, R. M. Metzger, USA
Molecular Electronic Devices, J. Chen, T. Lee, J. Su, W. Wang, M. A. Reed, A. M. Rawlett, M. Kozaki, Y. Yao, R. C. Jagessar, S. M. Dirk, D. W. Price, J. M. Tour, D. S. Grubisha, and D. W. Bennett, USA
Nanoscale Device Modeling, P. S. Damle, A. W. Ghosh, and S. Datta, USA
Gated Molecular Devices Using Self-Assembled Monolayers, D. Abusch-Magder, Z. Bao, A. Erbe, H. Meng, and N. Zhitenev, USA
Controlling and Measuring Molecular-Scale Properties for Molecular Nanoelectronics,
R. K. Smith and P. S. Weiss, USA
Carbon Nanotubes: Synthesis, Devices and Integrated Systems, X. Liu, C. Lee, S. Han, C. Li,
and C. Zhou, USA
Nanowire Nanoelectronics Assembled from the Bottom-Up, X. Duan, Y. Huan, Y. Cui,
and C. M. Lieber, USA
Nanoparticles: Building Blocks for Functional Nanostructures, C. Radloff, C. E. Moran,
J. B. Jackson, and N. J. Halas, USA
Molecular- and Nanocrystal-Based Photovoltaics, L. Swafford and S. J. Rosenthal, USA
Organic Thin Film Transistors, H. Klauk and T. N. Jackson, USA
Organic and Polymeric Light Emitting Devices, M. D’Iorio and Y. Tao, Canada
Molecules, Gates, Circuits, and Computers, S. C. Goldstein and M. Budiu, USA
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zhaokelun1975

木虫 (著名写手)
Quantum Dots and Nanowires



Edited by
Supriyo Bandyopadhyay
Department of Electrical Engineering, Virginia Commonwealth University, USA
Hari Singh Nalwa, USA
Formerly of Hitachi Research Laboratory, Hitachi Ltd., JAPAN


February 2003
443 pages, Hardcover
ISBN: 1-58883-013-6
US$299.00


DEscriptION
Quantum Dots and Nanowires provides coverage on various emerging aspects of quantum dots and nanowires. This book covers recent advances in physical and chemical synthetic approaches, processing and fabrication of semiconductor quantum-dot arrays, superlattices, self-assemblies, nanowires, nanotubes and nanobelts, computational modeling approaches, spectroscopic characterization, their unique electrical, optical, magnetic and physical properties associated with size effect, transport phenomena, quantum computing, and other potential applications.
CONTENTS
Quantum Dots: Artificial Atoms and Molecules, Philippe Matagne
and Jean-Pierre Leburton, USA
Quantum Dot Atoms, Molecules, and Superlattices, H. Tamura, H. Takayanagi,
and K. Shiraishi, Japan
Self-Assembled Quantum Dots in Electric Field, A. Babinski, Poland

Synthesis of Nanowires Using Porous Alumina, Latika Menon, USA
Synthesis, Structure and Growth Mechanism of Oxide Nanowires, Nanotubes and Nanobelts, Zheng Wei Pan, Zu Rong Dai, and Zhong Lin Wang, USA
Nanowires by Electron Beam-Induced Deposition and Biomolecule Templating,
W. Fritzsche, Germany
Raman Scattering from III-VI Semiconductor Interfaces, Quantum Dots and Quantum Wires,
V. Wagner, J. Geurts, and W. Kiefer, Germany
Thermal Transport in Semiconductor Nanostructures, Alexander A. Balandin and Jie Zou, USA
Device and Circuit Applications of Electrochemically Self-Assembled Quantum Dots and Wires,
S. Bandyopadhyay, N. Kouklin, and L. Menon, USA
Quantum Dot Structures: Raman and Infrared Spectroscopy, A. Milekhin, D. A. Tenne
and D. R. T. Zahn, Germany
KEY FEATURES
Most up-to-date reference work summarizing recent advances on semiconductor quantum dots and nanowires.
State-of-the-art chapters written by research experts from academia and industry.
Approximately 2,000 bibliographic citations and thousands of illustrations, figures, tables, and equations.
An essential resource for scientists, researchers, upper-level undergraduate and graduate students, and college and university professors working in the field of electrical and electronic engineering, materials science, solidstate physics, nanotechnology, computational engineering, spectroscopy, and device applications.
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