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zhaokelun1975

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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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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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Handbook of Organic-Inorganic Hybrid Materials
and Nanocomposites



Edited by
Hari Singh Nalwa
Formerly of Hitachi Research Laboratory, Hitachi Ltd., JAPAN



May 2003
ca. 810 pages, Hardcover
ISBN: 1-58883-011-X
US$695.00


DEscriptION
Handbook of Organic-Inorganic Hybrid Materials and Nanocomposites is a major reference work that provides coverage on various emerging aspects of organic-inorganic hybrid materials and nanocomposites. These two-volume cover topics on molecular building blocks for preparing hybrid materials and nanocomposites, different synthetic routes allowing multifunctionality with a wide range of composition, sol-gel chemistry, processing and fabrication into ultrathin films, fibers, xerogels, spectroscopic characterization, mechanical, thermal, electronic, optical, catalytic and biological properties, polymer/metal interfaces, and their potential commercial applications. The handbook contains about 20 state-of-the-art chapters written by over 40 international experts from 11 countries. The handbook has been divided into two thematic volumes:
SELECTED CONTENTS
Volume 1. Hybrid Materials
Volume 2. Nanocomposites
Building Hybrid Organic-Inorganic Materials using Silsesquioxanes, Douglas A. Loy
and Kamyar Rahimian, USA
Silica-Organic Hybrid Materials, Sebastian Polarz, Germany
Crosslinked Heteropolysiloxanes as Inorganic-Organic Polymers, Karl-Heinz Haas, Germany
Ring Opening Polymerization of Poly(siloxane) Materials, C. J. Embery, S. J. Clarke,
and Jani G. Matisons, Australia
The Multiple Role of Silicon in Dendritic Chemistry, Daniel Neumann and Jani G. Matisons, Australia
Organic-Inorganic Hybrid Materials from Sonogels, Nicolas de la Rosa-Fox, Manuel Pinero, and Luis Esquivias, Spain
Molecular Tectonics in Sol-Gel Chemistry, Marc Henry, France
Optical Properties of Funcionalized Sol-Gel Derived Hybrid Materials, P. Prosposito
and Mauro Casalboni, Italy
Light Emission From Organic-Inorganic Hybrids Materials Lacking Activator Centers, L.D. Carlos,
R.A. Sá Ferreira and V. de Zea Bermudez, Portugal
Design and Development of Functional Biocompatible Hybrid Materials for Medical Applications,
Masao Tanihara, Toshiki Miyazaki, Shin-ichi Ogata and Chikara Ohtsuki, Japan
Processing and Properties of Non-layerd Nanoparticle Reinforced Thermoplastic Composites,
Ming Qiu Zhang, Ming Zhi Rong and Klaus Friedrich, Germany
Relationships between Microstructural Aspects and Mechanical Properties in Polymer based Nanocomposites, L. Chazeau, C. Gauthier, G. Vigier, J. Y. Cavaillé, France
Superhard Nanocomposite Coatings, Gregory M. Demyashev, Alexander L. Taube,
and Elias Siores, Australia
Carbon Nanotube-Based Nanocomposites, H. C. Zeng, Singapore
Conducting Polymer Nanocomposites, Rupali Gangopadhyay and Amitabha De, India
Luminescence and Photovoltaic Effects in Polymer-Based Nanocomposites, L. Bakueva, S. Musikhin,
E. H. Sargent, H. Ruda, and A. Shik, Canada
Nano/Microstructure in Metal Oxides Prepared by MeV ions, Lasers and Synchroton Radiation,
Koichi Awazu
Magnetic Organic-Inorganic Hybrid Materials: Synthesis, Structure and Properties, Pierre Rabu
and Marc Drillion, France
Organic-Inorganic Hybrid >From Ionomer, Yan Gao and Namita Roy Chaudhury, Australia
KEY FEATURES
Most up-to-date reference work summarizing pioneering research on organic-inorganic hybrid materials and nanocomposites.
A unique source of in-depth knowledge of many aspects of synthesis, character.
Contains 19 state-of-the-art chapters written by over 40 international experts from 11 countries.
Over 5,000 bibliographic citations and thousands of illustrations, figures, tables, chemical structures and equations.
An essential resource for scientists, researchers, upper-level undergraduate and graduate students, college and university professors working in the field of organic-inorganic hybrid materials, nanocomposites, organic synthetic chemistry, materials science, sol-gel chemistry, silicon chemistry, ceramic engineering, solid-state physics, electronic and optical engineering, biomedical engineering, supramolecular chemistry, polymer science and engineering, nanotechnology, etc.
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Synthesis, Functionalization and Surface Treatment
of Nanoparticles



Edited by
Marie-Isabelle Baraton
University of Limoges, FRANCE



Januaryy 2003
323 pages, Hardcover
ISBN: 1-58883-009-8
US$399.00


Synthesis, Functionalization and Surface Treatment of Nanoparticles is an area of crucial importance in the emerging field of nanotechnology. Controlling the surface chemical composition and mastering its modification at the nanometer scale are critical issues for high-added value applications involving nanoparticles. The basic applications of surface functionalization range from altering the wetting or adhesion characteristics and improving the nanoparticles dispersion in matrices to enhancing the catalytic properties and ordering the interfacial region, and such. The creation of specific surface sites on nanoparticles for selective molecular attachment is considered a promising approach for their applications in nanofabrication, nanopatterning, selfassembly, nanosensors, bioprobes, drug delivery, pigments, photocatalysis, LEDs, etc. This book presents novel and improved synthesis methods and approaches for controlling and functionalizing the nanoparticle surfaces to enhance the overall performance of the nanoparticles for targeted applications.
CONTENTS
Nanoparticles from Mechanical Attrition, Claudio L. De Castro and Brian S. Mitchell, USA
Electrochemical Synthesis of Metallic Nanopowders, Jean-Luc Delplancke, BELGIUM
Sol-Gel Derived Oxide and Sulfide Nanoparticles, Sudipta Seal and S. Shukla, USA
Templating Nanostructure Through the Self-Assembly of Surfactants, Blake Simmons, Limin Liu,
Vijay John, Chad Taylor, Daniel Schwartz, Gary McPherson, Arijit Bose, Vivek Agarwal, USA
Synthesis and Assembly of Functionalized Gold Nanoparticles, Marvin G. Warner
and James E. Hutchison, USA
Organic Functionalization of Metal Oxide Nanoparticles, Guido Kickelbick
and Ulrich Schubert, AUSTRIA
Polymer Metal Nanocluster Composites, Horacio Rotstein and Rina Tannenbaum, USA
Functionalized TiO2 Nanoparticles for Pigments, Photoelectro-Chemistry and Solid Sate
Chemical Sensors, P. Knauth, R. Bouchet, O. Schaf, A. Weibel, FRANCE,
and G. Auer, GERMANY
Surface Modification of TiO2: A Route for Efficient Semiconductor Assisted Photocatalysis,
Tijana Rajh, Olga V. Makarova, Donald Cropek, and Marion C. Thurnauer, USA
Silicon Nanoparticles: Next Generation of Ultrasensitive Fluorescent Nano-Organic Markers,
Munir H. Nayfeh, Elena V. Rogozhina, and Lubos Mitas, USA
Surface-Engineered Nanoparticles as Drug Carriers, Ruxandra Gref, FRANCE
Characterization of Surface Structure and Interaction Between Particles, Hidehiro Kamiya
and Makio Naito, JAPAN
Dielectric Properties of Nanoparticles, Shlomo Berger, ISRAEL
KEY FEATURES
Latest synthesis techniques for producing metals, alloys, oxides, and polymers nanoparticles.
Functionalization of TiO2 nanopowders for targeted applications in pigments, gas sensors, photocatalysis, etc.
State-of-the-art review chapters written by world-renowned experts from leading institutions.
Valuable reference source for students, researchers, college and university professors, and specialists working in the fields of nanoparticle technology, surface science, chemistry, nanotechnology, solid-state physics, materials science, polymer science, colloid science, aerosol technology, environmental science, pharmacy, biotechnology, etc.
READERSHIP
Human Factors and Usability Specialists, Design Engineers, Ergonomics Specialist, Computer Interface-Specialists, Students, Usability Researchers. Computer System Engineers, Product Users, Computer Scientists, Engineering Administrators, Engineers-at-large.
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6楼2007-04-28 17:15:35
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zhaokelun1975

木虫 (著名写手)
Handbook of Semiconductor Nanostructures
and Nanodevices




   5-Volume Set
Edited by
A. A. Balandin, University of California at Riverside, USA
K. L. Wang, University of California at Los Angeles, USA



October 2005
ca.2,500 pages, Hardcover
ISBN:158883-073-X
US$1999


DEscriptION
Handbook of Semiconductor Nanostructures and Nanodevices is the World's first multivolume handbook covering a wide variety of advanced and emerging developments in the field of semiconductor nanotechnology. Semiconductor materials are the key elements of continued scientific and technological developments made in the fields of electronics, optoelectronics, photonics, and magnetic devices. The five-volume set is an unprecedented encyclopedic reference that covers growth and processing of semiconductor nanostructured materials by MBE, CVD, PVD, electrochemical, and other techniques, all types of III-V, IV, and II-VI semiconductor nanomaterials, nanofabrication by bottom-up and top-down approaches, precise control and uniformity of semiconductor self-assembled nanostructures, quantum dots, and quantum wells, nanowires, nanoclusters, nanocrystals, and nanoparticles, heterojunctions and interface properties, physical, and chemical properties, nanoscale spectroscopic characterization techniques, and applications of semiconductor devices in nanoelectronics, nano-optoelectronics, nanometrology, nanocircuits, nano-imprint lithography, heterojunction devices, laser diodes, LEDs, solar cells, terahertz devices, thermoelectric devices, NEMS/MEMS, optical switches, infrared detectors,, computers, wireless communications, magnetic random access memory (MRAM) and ferroelectric random access memory (FeRAM), spintronic and data storage devices, single-electron transistors, quantum computing devices, .etc. Both experimental and theoretical aspects of semiconductor nanoscience and nanotechnology are covered. It is a must-have handbook for university libraries, research establishments, government laboratories, and high-tech companies engaged in research and development of semiconductors. It is written for a broad range of audience with different backgrounds and educational level, compiling past two decades of pioneering research. It provides in-depth information to research professionals active in the field of semiconductor nanoscale science and technologies. This handbook can be effectively used by upper-level undergraduate students, graduate students, postdoctoral researchers, scientists, engineers working in industry, consultants, technology investors and developers seeking the most up-to-date information on semiconductor nanotechnology. This handbook has been divided into five different thematic volumes based on semiconductor nanostructured materials and their based nanodevices.
          Volume 1: Self-Assemblies, Qauntum Dots, and Nanowires
          Volume 2: Nanofabrication and Nanoscale Characterization
          Volume 3: Spintronics and Nanoelectronics
          Volume 4: Nanophotonics and Optoelectronics
          Volume 5: Nanodevices and Circuits
KEY FEATURES
World's first handbook ever published on semiconductor nanostructures and nanodevices
Most up-to-date reference work summarizing two decades of pioneering research
About 70 in-depth review chapters contributed by more than 200 of the world's leading experts.
Edited and written by internationally known authoritative experts in the field
Truly international: authors from more than 20 countries
Over 6,000 bibliographic citations providing extensive cross-referencing in each article
Thousands of illustrations, figures, tables, and equations.
High quality figures and tables summarizing materials parameters and device performance
Timely, authoritative and most comprehensive
A cross-disciplinary reference spanning from materials science to electronic engineering.
READERSHIP
A perfect multidisciplinary reference source for scientists, engineers, researchers, upper-level undergraduate and graduate students, college and university professors, and research professionals both in academia and industry working in the fields of nanotechnology, semiconductor technology, electrical and electronic engineering, solid-state physics, materials science, surface science, magnetic materials, optical engineering, optoelectronics, device applications, telecommunications, data storage, and information technology, This handbook is also an invaluable reference source for the libraries in universities and industrial institutions, government laboratories and independent research institutes, individual research groups and scientists working in the fields of nanotechnology, semiconductor nanotechnology and nanodevices.
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7楼2007-04-28 17:16:33
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zhaokelun1975

木虫 (著名写手)
Nanoparticles for Pharmaceutical Applications




Edited by
A. J. Domb, Y. Tabata, M. N. V. Ravi Kumar, and S. Farber



January 2007
500 pages, Hardcover
ISBN: 1-58883-089-6
US$399.00


DEscriptION
Nanoparticles for Pharmaceutical Applications deals with emerging new technologies for developing customized solutions for drug delivery systems. The drug delivery systems should positively impact the rate of absorption, distribution, metabolism, and excretion of the drug or other related chemical substances in the body. In addition, the drug delivery system should allow the drug to bind to its target receptor and influence that receptor’s signaling and activity. Drug delivery materials should be compatible, easy to bind with a particular drug, and able to degrade into fragments after use that are either metabolized or driven out via normal excretory routes. The book emphasizes the material-based technologies in the area of drug delivery that include solid lipid nanoparticles, liposomes, polysaccharides, polyesters, micelles, etc. The different route-based delivery systems such as oral, pulmonary, ocular, dermal, etc. are discussed. The focus is also on certain diseases to which these technologies can be applied for maximum benefits: cancer, tuberculosis, restenosis, etc. The topics also include gene and vaccine delivery as well as safety concerns of these nano-scale materials. The 22 state-of-the-art review chapters are written by world-renowned scientists working in the field of nanotechnology-based drug delivery systems.
CONTENTS
Recent Advances in Polyalkylcyanoacrylate Nanoparticles for Drug Delivery, Elias Fattal, Karine Andrieux, Gillian Barratt, Patrick Couvreur, Denis Labarre, Gilles Ponchel, and Christine Vauthier
Dendrimers and Hyperbranched Nanospheres with Medical Applications, Sõnke Svenson, and Donald A. Tomalia
Lipid Nanoparticles (SLN and NLC) for Drug Delivery, Eliana B. Souto and Rainer H. Müller
Liposomes for Drug Delivery, Pierre Simard, Jean-Christophe Leroux, Christine Allen, and Olivier Meyer
Polysaccharide-based Nanoparticles as Carriers for Drug and Vaccine Delivery, María José Alonso, Cecilia Prego, and Marcos García-Fuentes
The Impact of Surface Charge on Nanoparticle Performance, Oshrat Harush, Yoram Altschuler, and Simon Benita
Surface Modification of Nanoparticulate Drug Carriers, Vladimir P. Torchilin
Polymeric Micelles as Nano-sized Drug Carrier Systems, Masayuki Yokoyama
Polyester Nano- and Micro-particles by Polymerization and by Self-assembly of Macromolecules, Stanislaw Slomkowski
Characterization of Novel Intranasal Sustained-Release Nanoparticles for Delivery of Neuropeptides to the Brain, Michael J. Kubek, Michael Yard, Debomoy K. Lahiri, and Abraham J. Domb
Nanoparticles in Ocular Drug Delivery, Esther Eljarrat Binstock and Abraham J. Domb
Oral Drug Delivery, V. Bhardwaj and M. N. V. Ravi Kumar
Lymphatic Absorption of Nanoparticles, Pavel Gershkovich, Leonid Kagan, and Amnon Hoffman
Nanoparticles Aiming at Specific Targets--Dermal and Transdermal Delivery, Biana Godin and Elka Touitou
Nanoparticles for Respiratory Drug Delivery, R. Banerjee
Nanoparticles of Biodegradable Polymers for Cancer Chemotherapy, Si-Shen Feng, Priscilla Pui Sze Lee, and Khin Yin Win
Nanoparticles for the Treatment of Restenosis, Einat Cohen-Sela, M. Chorny, and G. Golomb
Nanostructured Polycation Materials for Gene Delivery, I. Yudovin-Farber and A. J. Domb
Nanotechnology: Implications for Antitubercular Chemotherapy, Rajesh Pandey and G. K. Khuller
Gelatin-based Nanomicelles, Toshihiro Kushibiki and Yasuhiko Tabata
Carbon Nanotubes: Role in Healthcare, Lalit M. Bharadwaj and Vijayender Bhalla
Toxicity Issues Related to Nanoparticulate Systems, Rajendra Pawar, Sudhakar Bhusare, and Yeshwant Vibhute
READERSHIP
This book is a valuable reference source for scientists, graduate students, engineers, industrial researchers, and other professionals working in the fields of pharmaceutical sciences, medicine, medicinal chemistry, drug delivery, clinical pharmacology, biotechnology, bionanotechnology, polymer science, materials science, chemistry, chemical biology, chemical engineering, biochemistry, biological engineering, biomedical sciences, and other related areas of life sciences.
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8楼2007-04-28 17:17:04
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zhaokelun1975

木虫 (著名写手)
Polymer Nanocomposites and Their Applications




Written by
Suprakas Sinha Ray and Mosto Bousmina
Department of Chemical Engineering, Laval University, Canada



October 2006
ca.600 pages, Hardcover
ISBN: 158883-099-3
US$399.00



POLYMER NANOCOMPOSITES AND THEIR APPLICATIONS is a monograph devoted to the synthesis, processing, properties and commercial applications of polymer nanocomposites. The book has been divided into five parts: Part-I deals with the basic materials used for preparation, processing, and modification of nanocomposites, Part-II is devoted to the polymer nanocomposites based on layered silicates, Part-III is dedicated to the polymer nanocomposites based on carbon nanotubes and nanofibers while Part-IV covers all aspects of polymer nanocomposites based on inorganic nanoparticles, and polyhedral oligomeric silsesquioxanes. The Part-V summarizes a wide variety of industrial applications of polymer nanocomposites. This book covers a very wide range of polymer matrices including both thermoplastics and thermosets. The text provides both a description of the fundamental aspects and an up-to-date overview of the recent developments in manufacturing technologies, fabrication, spectroscopic characterization, properties, structure-property relationships, rheology, crystallization behavior, degradability of biodegradable nanocomposites, processing, and finally commercial applications of polymer nanocomposites. This is the first book summarizing an extensive list of references of scientific papers and patent literature focused on polymer nanocomposites. This book could be used for a one-semester graduate course on polymer nanocomposites.
CONTENTS
Part I: Basic Materials for Polymer Nanocomposites Technology
Layered Silicates, Carbon Nanotubes and Nanofibers, Inorganic Nanoparticles, Expandable Graphite, Polyhedral Oligomeric Silsesquioxanes (POSS®, Cellulose Nanowhiskers, A very wide variety of polymer matrices includes Polyacrylates, Poly(acrylic acid), Poly(acrylonitrile), Polystyrene, Poly(vinyl pyridine), Polyacrylamide, Poly(N-isopropylacrylamide), Poly(tetrafluoro ethylene), Poly(N-vinyl pyrrolidone), Poly(vinyl pyrrolidinone), Poly(vinyl pyridine), Poly(ethylene glycol), Poly(ethylene vinyl alcohol), Poly(vinylidene fluoride), Poly(p-phenylenevinylene), Poly(benzoxazole), Poly(styrene-co-acrylonitrile), Ethyl-vinyl-alcohol Copolymers, Polystyrene-Polyisoprene Diblock Copolymers, Polyamides, Poly(ethylene terephthalate), Poly(trimethylene terephthalate), Poly(butylene terephthalate), Polycarbonates, Poly(ethylene oxide), Ethylene Oxide Copolymers, Poly(ethylene imine), Poly(dimethyl siloxane), Polybutadienes, Butadiene Copolymers, Epoxidized Natural Rubber, Epoxy Polymer Resins, Phenolic Resins, Polyurethanes, Polyurethane-Urea, Polyimides, Poly(amic acid), Polysulfone, Polyetherimide, Fluoropoly(ether-imide), Polyolefins, Conductiing and Conjugated Polymers, Liquid Crystal Polymers, Biodegradable Thermoplastic Polyesters and Their Copolymers, Specialty Polymers, etc.
Part II: Polymer Nanocomposites Based on Layered Silicates
Manufacturing Technologies, Morphological Characterization Techniques, Fundamental Aspects, Nucleation and Crystallization Behavior, Mechanical Properties, Heat Distortion Temperature, Gas Barrier Properties, Thermal Stability, Flammability, Photo-oxidative Stability, Ionic Conductivity, Optical Transparency, Degradability of Biodegradable Nanocomposites, Electro-rheology, Rheology under Molten State, Structure-Property Relationship, Processing Techniques, Thin films, Foams, Injection Molding, Sol-Gel Method, Organic-Inorganic Hybrids.
Part III: Polymer Nanocomposites Based on Carbon Nanotubes and Nanofibers
Preparation, Morphological Characterization, Mechanical Properties, Electrical Properties, Thermal Properties, Optical Properties, Field Emission Properties, Fiber Surface Properties, Structure-Property Relationship, Thermal Stability and Flammability, Crystallization Behaviors and Morphology , Spectroscopic Characterization Methods.
Part IV: Polymer Nanocomposites Based on Inorganic Nanoparticles
Preparation, Characterization, Mechanical Properties, Electrical Properties, Thermal Properties, Thermal Stability and Flammability, Optical Properties, Structure-Property Relationship
Part V: Applications of Polymer Nanocomposites
Automobiles, Aerospace, Injection Molded Products, Coatings, Adhesives, Fire-retardants, Packaging Materials, Microelectronic Packaging, Optical Integrated Circuits, Drug Delivery, Sensors, Membranes, Medical Devices, Consumer Goods, etc.

READERSHIP
The book is intended for a very wide audience including students, researchers, scientists, engineers and professionals working in the fields of composite science and technology, nanocomposites, nanotechnology, materials science, surface science, polymer science and engineering, biodegradable materials, chemistry, and solid-state physics.
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9楼2007-04-28 17:24:09
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zhaokelun1975

木虫 (著名写手)
Functional Nanomaterials




Edited by
Kurt E. Geckeler, Gwangju Institute of Science and Technology, South Korea
Edward Rosenberg, University of Montana, USA


October 2005
500 pages, Hardcover
ISBN: 1-58883-067-5
US$399.00



DEscriptION
Functional Nanomaterials is the first and unique compilation of the state-of-the-art review chapters covering all aspects of functional nanomaterials and their applications. Nanotechnology has led to a profound paradigm shift after the developments in recent years and after being classified as one of the most important areas of impending technology by the U.S. government. Novel functional nanomaterials are the basis of newly emerging nanotechnologies for various device applications. This book with 30 chapters reflects the tremendous world-wide interest in functional nanostructured ­materials. The wide variety of topics covered in this book is interesting for professionals working in the fundamental and applied research. The book covers major classes of nanomaterials such as carbon nanotubes, carbon and polymer nano­fibers, nano­particles, nanocomposites, nanosheets, fullerenes, supramolecular and self-assembled nano­structures, and many other types of nanomaterials. In addition, this book highlights various physico-chemical properties of different nanostructures such as catalytic, dielectric, magnetic, fluorescent and luminescent properties as well as applications of nanomaterials in sensors, photonics, drug delivery, proteomics, biomolecular electronics, and Homeland Security.
CONTENTS
Molecular Machines for Protein Degradation, M. Groll, M. Bochtler, H. Brandstetter, T. Clausen, and R. Huber
Science and Engineering of Polymer Nanofibers, S. Ramakrishna, K. Fujihara, V. K. Ganesh, W. E. Teo, and T. C. Lim
Structure and Properties of Carbon Nanotube-Based Films and Fibers, G.-W. Lee and S. Kumar
Syntheses of Carbon Nanofibers and Nanotubes by Catalytic Decomposition of Hydrocarbons on Supported-Ni Catalysts, K. Otsuka and S. Takenaka
Functionalization of Carbon Nanotubes, D. Nepal and K. E. Geckeler
Calculations on Solvents and Co?solvents of Carbon Nanotubes: Cyclopyranoses, F. Torrens
Nanostructured Materials with Enhanced Magnetic and Catalytic Properties, L.-J. Wan and C.-L. Bai
Nanophotonic Ensembles for Biomedical and Homeland Security Applications, C. W. Spangler, F. Meng, A. Gong, M. Drobizhev, A. Rebane, A. Karotki, B. D. Spangler, Z. Suo, and E. S. Tarter
Fullerene-Based Nanostructures, Y. Wang and K. E. Geckeler
Nanostructured Polyimide Materials with Controllable Dielectric Property, B.-K. Zhu, S.-H. Xie, Y.-Y. Xu, and Z.-K. Xu
Arrangement of Polymer Nanoparticles on Micro- and Nano-fabricated Silicon Substrates, M. Tanaka and H. Nishide
Fluorescent Organic Nanoparticles with Strongly Enhanced Emission, B.-K. An and S. Y. Park
Luminescent Nanomaterials, A. Roy
Nanosized Optical "Devices" for Applications in Proteomics and Biomolecular Electronics: Engineered Green Fluorescent Proteins, R. Bizzarri, R. Nifosi, P. Pingue, V. Tozzini, and F. Beltram
Composites with Nanomaterials, L. M. Manocha
Libraries of Nanosized, Polyfunctional Platforms and Nanocomposites from Silsesquioxanes, R. M. Laine, C. Brick, M. Roll, S. Sulaiman, S. G. Kim, M. Asuncion, J. Choi, and R. Tamaki
Ultrafast Photoinduced Interfacial Electron Transfer Dynamics in Molecule-Inorganic Semiconductor Nanocomposites, X. Ai and T. Lian
Physical Properties of Nano-Manganites and Carbon Nanotubes, A. K. Dhami
Nanospintronic Devices: Magnetic Semiconductors Digital Alloys and Heusler/Semi­conductor Interfaces as New Materials, A. Continenza and and S. Picozzi
Supramolecular Assembly of Rod-Coil Block Molecules into Organized Nanostructures, M. Lee and J.-H. Ryu
Photofunctional Supramolecular Systems Based on Polymer Nano-sheet, T. Miyashita, J. Matsui, and M. Mitsuishi
Fine-Tuning Self-Assembly for Synthesis and Structure-Property Optimization of Functional Nanomaterials, S. Valiyaveetti
Nanoencapsulation of Fullerene with the Hosts Cyclodextrin and Cucurbituril, F. Constabel and K. E. Geckeler
Morphological Chameleons: pH-Dependent Aggregation Behavior of Sugar-Based Gemini Amphiphiles in Aqueous Solutions, M. Johnsson and J.B.F.N. Engberts
Iontophoretic Drug Delivery Using Polymer Electrolyte Materials, F. O. V. da Cunha, M. M. C. Forte, A. Barnes, R. J. Latham, R. G. Linford, and W. S. Schlindwein
Pyrazolyl Embrace as a Supramolecular Synthon: Case Study of Metal Carbonyl Complexes Containing Linked Tris(pyrazolyl)methane Ligands, D. L. Reger, R. F. Semeniuc, J. R. Gardinier, K. J. Brown, and M. D. Smith
Self-Organisation of Block Copolymers Based on Polysilanes, R. G. Jones and S. J. Holder
Modulation of the Superstructure and Response of Macromolecules Through Molecular Interactions and Nanodispersion, F. Ciardelli, O. Pieroni, S. Bronco, C. Cappelli, G. Ruggeri, and A. Pucci
Crystallization of Nanostructures by Plasma Enhanced Chemical Vapor Deposition, J. Zhang, P. Yang, L. Yang, L. Xia, and Y. Guo
Nanostructured Tin Dioxide Materials for Gas Sensor Applications, T. A. Miller, S. D. Bakrania, C. Perez, and M. S. Wooldridge
READERSHIP
This book is a valuable reference source for scientists, graduate students, postdoctoral fellows, engineers, industrial researchers, and other professionals working in the fields of nanomaterials, nanotechnology, materials science, chemistry, physics, polymer science, engineering, and biosciences. It is a cutting-edge monograph and an essential addition to all modern and up-to-date libraries.
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10楼2007-04-28 17:24:32
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zhaokelun1975

木虫 (著名写手)
Encyclopedia of Nanoscience and Nanotechnology



10-Volume Set
Edited by
Hari Singh Nalwa
Editor-in-Chief, Journal of Nanoscience and Nanotechnology
FOREWORD by Richard E. Smalley, Nobel Prize Laureate
2004 ca. 10,000 pages, Hardcover
ISBN: 1-58883-001-2
US$6992.00
PRINT
and
ONLINE



2005 BEST REFERENCE WORK AWARD:
The Awards Committee of the Engineering Libraries Division of the American Society for Engineering Education is proud to announce the following: "The 2005 Best Reference Work Award goes to Encyclopedia of Nanoscience and Nanotechnology, edited by Hari Singh Nalwa and published by American Scientific Publishers, 2004. This encyclopedia brings together international research in these groundbreaking areas…The Encyclopedia of Nanoscience and Nanotechnology proves to be a definitive tool that links both the novice and expert researcher to understandable articles and matches the caliber of past recipients of ELD's Best Reference Work Award.”
John C. Teleha, Chair, Engineering Libraries Division Awards Committee,
American Society for Engineering Education, USA
Reference Librarian, F. D. Bluford Library, North Carolina Agricultural & Technical State University, USA

2005 OUTSTANDING ACADEMIC TITLE:
"Encyclopedia of Nanoscience and Nanotechnology (10-Volume set) edited by Hari Singh Nalwa has been selected as the CHOICE Outstanding Academic Title.”
Irving E. Rockwood, Editor & Publisher, CHOICE, American Library Association, USA
REVIEWS:
"American Scientific Publisher’s Encyclopedia of Nanoscience and Nanotechnology is an excellent scientific encyclopedia. It provides an excellent breath and depth of information that is particularly suited to benefit a broad spectrum of non-professional and professional researchers.......it is an excellent set that should provide sound information for several years to come."
Alice Trussell, Director, Kansas State University Fiedler Engineering Library, USA
E-STREAMS Vol. 7, September 2004

"The Encyclopedia of Nanoscience and Nanotechnology is the world's first single most comprehensive reference source ever published in the field of nanotechnology. This encyclopedia is an indispensable source for any research professional as well as for technology investors and developers seeking up-to-date information on the nanotechnology among a wide range of disciplines from science to engineering to medicine. It should inspire future generations of academic and industrial researchers who endeavor to develop new nanoscale materials and devices."
Professor Richard E. Smalley, Nobel Prize Laureate in Chemistry

"In view of the great interest that Nanoscience and Nanotechnology are attracting, the rapid development they are experiencing and of the profound impact they will have, an Encyclopedia covering this field is most welcome. It should become a source of inspiration as well as of information for a very wide range of scientists."
Professor Jean-Marie Lehn, Nobel Prize Laureate in Chemistry

"The Encyclopedia of Nanoscience and Nanotechnology edited by Dr. Hari Singh Nalwa will be of great value to students, teachers and research workers interested in the area. I recommend this volume to individuals, research groups and libraries."
Professor C. N. R. Rao, Bangalore, India
ENCYCLOPEDIA DEscriptION
Encyclopedia of Nanoscience and Nanotechnology® is the World's first encyclopedia ever published in the field of nanotechnology. The 10-volume Encyclopedia is an unprecedented single reference source that provides ideal introduction and overview of most recent advances and emerging new aspects of nanotechnology spanning from science to engineering to medicine. Although there are many books/handbook and journals focused on nanotechnology, no encyclopedic reference work has been published covering all aspects of nanoscale science and technology dealing with materials synthesis, processing, fabrication, probes, spectroscopy, physical properties, electronics, optics, mechanics, biotechnology, devices, etc. The Encyclopedia fills this gap to provide basic information on all fundamental and applied aspects of nanotechnology by drawing on two decades of pioneering research. It is the only scientific work of its kind since the beginning of the field of nanotechnology bringing together core knowledge and the very latest advances. It is written for all levels audience that allows non-scientists to understand the nanotechnology while providing up-to-date latest information to active scientists to experts in the field. This outstanding encyclopedia is an indispensable source for research professionals, technology investors and developers seeking the most up-to-date information on the nanotechnology among a wide range of disciplines from science to engineering to medicine.
KEY FEATURES
World's first and only encyclopedia ever published in the field of nanoscience and nanotechnology
Comprehensive coverage of all aspects of the nanoscale science and technology in all disciplines
Most up-to-date reference work drawing on the past two decades of pioneering research
Over 419 +review chapters (ca. 10,000 pages) contributed by over 900 of the world's leading scientists
All entries organized alphabetically in an A-Z order, browsing capabilties within different categories
State-of-the-art review chapters of between 10 to 100 encyclopedia pages in length
Edited and written by internationally known authoritative experts familiar with current technologies
Truly international: authors from 35 countries
Approximately 80,000 bibliographic citations providing extensive cross-referencing in each article
About 7,500 figures, 800 tables and hundreds of chemical structures and equations
Published in both print and online formats.
Timely, authoritative and most comprehensive
A distinguished International Advisory Board of scientific experts
Extensive cross-referencing in each article provides reader with broader range of knowledge
Available Online Edition allowing multiple users and fully searchable text
Essential source for students, scientists, college and university professors, professionals, investors
Multidisciplinary reference source for researchers spanning from science to engineering to medicine

ENCYCLOPEDIA SCOPE
The Encyclopedia of Nanoscience and Nanotechnology will cover the following areas. Over 400 review chapters and hundreds of entries written by over 1,000 of the world's leading scientists.
Nanostructured Materials including semiconductors, metals, conductors, superconductors
Nanofabrication and Processing of Nanoscale Materials and Devices, CVD, Epitaxy
Nanoprobes, Spectroscopic Characterization, STM, AFM, TEM, etc.
Properties of Atomic, Molecular and Nanoscale Materials, Interactions at Nanoscale
Nanocomposites, Nanoparticles, Nanocrystalline Materials, Nanoclusters and Nanocrystals
Superlattices, Quantum Dots, Molecualar and Nanowires, Nanoscale Thin Films, Nanoporous systems
Hybrid materials, Colloids, Alloys, Nanoceramics, Self-Assembled Monolayers and Multilayers
Nanoelectronics, Nano-optics, Nanophysics, Nano-integration, Quantum Optics, Nanomagnetism
Fullerenes, Nanotubes, Nanorods, Molecular Wires, Molecular Nanotechnology
Supramolecules, Dendrimers, Self-Assemblies, Low-dimension Structures, polymers
Structure Analysis at Atomic, Molecular and Nanometer range
Atomic Manipulation, Computational Nanotechnology, Molecular Nanoscience
Nanorobotics, Nanomechanics, Nanotribology, Nanofluidics
Applications in LEDs, Displays, Solar Cells, Batteries, Lithography, Catalysis, Memories, Coatings
Nanobiotechnology, Nanobiology, Nanomedicines, Drug Delivery, Biomedical Applications

READERSHIP
Students, scientists, college and university professors, research professionals, technology investors and developers, research enterprises, R&D and defense research laboratories, academic and research libraries. The encyclopedia is intended for a very broad audience working in the fields of nanotechnology and nanoscience having strong connections with materials science, electrical and electronic engineering, solid-state physics, surface science, aerosol technology, chemistry, colloid science, ceramic and chemical engineering, polymer science and engineering, sol-gel science, supramolecular science, mechanical engineering, metallurgy and powder technology, optical science and engineering, device engineering, aerospace engineering, computer technology, information technology, environmental engineering, bionformatics, biology, pharmacy, biotechnology, food science, etc., etc. This encyclopedia is an invaluable reference source for the libraries in universities and industrial institutions, government and independent institutes, individual research groups and scientists working in the field of nanoscience and nanotechnology.
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11楼2007-04-28 17:25:23
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zhaokelun1975

木虫 (著名写手)
Cancer Nanotechnology – Nanomaterials for Cancer Diagnosis and Therapy




Edited by
Hari Singh Nalwa and Thomas Webster


July 2006
500 pages, Hardcover
ISBN: 1-58883-071-3
US$399.00


DEscriptION
Researchers from around the world are actively integrating nanotechnology into the treatment of various diseases that influence human health. This book on Cancer Nanotechnology is at the forefront of nanotechnology efforts relevant for a disease in which finding cures has proved problematic through conventional methods. Nanotechnology (and this book) takes an innovative fresh look at the prevention, diagnosis, and treatment of cancer. Specifically, on the biological side, topics covered in this book include: bone cancer, colon cancer, prostate cancer, gastric cancer, leukemia, bladder cancer, colorectal cancer, chemotherapy, use of stem cells in cancer treatment, immunotherapy, new cancer biological markers, as well as many others. On the nanotechnology side, the following concepts are integrated into cancer treatment: synthesis of nanoparticles, fabrication of bulk nanomaterials, use of tools (such as scanning probe and atomic force microscopy) in cancer research, elucidation of nanoscale mechanisms of cellular functions relevant to cancer, nanoscale computational modeling, and many others. Only by taking a fresh look at the prevention, diagnosis, and treatment of cancer through novel approaches such as, perhaps, the use of nanotechnology, will we begin to unravel the elusive aspects of cancer. Clearly, as this book addresses, these are necessary steps in finding cures for which nanotechnology may provide the answer. In summary, this book contains 20 review chapters and provides such existing data and perspectives on how nanotechnology may be used for all aspects of cancer including its prevention, diagnosis, and treatment.
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12楼2007-04-28 17:25:41
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zhaokelun1975

木虫 (著名写手)
Nanotoxicology - Interactions of Nanomaterials with Biological Systems




Edited by
Yuliang Zhao and Hari Singh Nalwa


June 2006
500 pages, Hardcover
ISBN: 1-58883-088-8
US$399.00


DEscriptION
With the rapid development of nanotechnology and its applications, a wide variety of nano-structured materials are now used in commodities, pharmaceutics, cosmetics, biomedical products, and industries. While nanoscale materials possess more novel and unique physicochemical properties than bulk materials, they also have an unpredictable impact on human health. The entrance into and interaction of nanomaterials in the human body have generated intense scientific curiosity, attracting much attention as well as increasing concern from the public, nanomaterial-based industries, academia, and governments worldwide. Nanotoxicology is the first textbook in this multidisciplinary area to address all those points and, thus, fill the knowledge gap concerning risks from nanotechnology, the impact of nanomaterials on the human body, their interactions with biological systems, and their risk assessments. The book comprises 16 review chapters covering the main aspects of dealing with the risk of exposure to nanomaterials. In addition, the text summarizes the toxicological effects and biological properties (in vitro or in vivo) for a very wide variety of man-made nano-structured materials including: metallic nanoparticles, metal oxide nanoparticles, dendrimers, quantum dots, nanoclusters, nanocrystals, nanowires, fullerenes, fullerene-based derivatives, single- and multi-wall carbon nanotubes, functionalized carbon nanotubes, polymer nanoparticles, carbon black, nano-coatings, nanomedicines, and others. In addition to covering the toxicological aspects of recognition, identification, and quantification of hazards resulting from human exposure to various types of nanomaterials during manufacturing and applications, this book also outlines possible medical and therapeutic benefits of nanomaterials for clinical diagnosis, drug delivery, disease treatment, and physiological and immunological mechanisms. Nanotoxicology is aimed at providing up-to-date information on the potential toxicological effects, risk assessment, and safety evaluation of nano-structured materials on human healthfor a wide audience, including those working in the fields of nanoscience and nanotechnology, biology, toxicology, chemistry, chemical biology, medical sciences, public health sciences, standardization of nanotechnology (nano-safety standards) as well as for policy makers developing regulatory frameworksin government departments and nanotechnology industries/enterprises. The book also offers special features that make it useful to general readers interested in health issues concerning nanomaterials and safe nanotechnology. Unique and especially valuable are the book’s strategies on how to reduce or eliminate nanotoxicological effects and a multidisciplinary methodology for testing all materials on the nanoscale to evaluate the potential for human exposure.
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13楼2007-04-28 17:25:57
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zhaokelun1975

木虫 (著名写手)
Magnetic Nanostructures



Edited by
Hari Singh Nalwa, USA
Formerly of Hitachi Research Laboratory, Hitachi Ltd., JAPAN



June 2002
ca. 300 pages, Hardcover
ISBN: 1-58883-000-4
US$395.00


Magnetic Nanostructures is the first and only reference source ever published to bring together all aspects of magnetic nanostructures for a wide range of readers. A dramatic increase in research activities on nanostructured magnetic materials and their based industrial applications has created a great demand for a reference source in this area. This book covers highly useful overview of specific topics related to nanostructured magnetic materials, their preparative methods, processing into nanoscale multilayers, thin films, particles, wires and dots, spectroscopic characterization, micro/nanostructures, physical properties and potential industrial-oriented applications such as magnetic data storage, magnetic sensors, magnetic tunnel junctions, random access memories, spintronic devices, etc. The contributing authors are from the top-notch academic and industrial institutions worldwide. This book has about 3,000 bibliographic citations and hundreds of illustrations, figures, tables and equations. Drawing on all current research advances and emerging technologies, this book is a definite reference source for beginners, general readers and specialists working on magnetic nanostructures and their based devices, magnetism and magnetic materials, materials science, solid-state physics, nanotechnology, electronic and optical engineering, magnetic data storage and information technology. This book will be an essential reference to a variety of individuals, research groups, libraries in universities and research institutions around the world.
CONTENTS
Magnetic Semiconductor Nanostructures, W. Heimbrodt and P. J. Klar, Germany
Magnetic Nanostructures for Future Magnetic Data Storage, Axel Carl
and Eberhard F. Wassermann, Germany
Structure and Magnetic Properties of Chemically Ordered Magnetic Binary Alloys in Thin
Film Form, Alfonso Cebollada, Spain; R. F. C. Farrow and M. F. Toney, USA
Macroscopic Magnetic Properties of Nanostructures and Nanocomposite Systems, M. Solzi,
M. Ghidini and G. Asti, Italy
Theory of Brillouin Cross Section from Magnetic Nanostructured Multilayers, R. Zivieri,
L. Giovannini, and P. Vavassori, Italy
Dynamics of Nanostructured Magnets, Robert Stamps, Australia
Off-axis Electron Holography of Nanostructured Magnetic Materials, Rafal Dunin-Borkowski
and Martha R. McCartney, UK
Microstructures and Properties of Nanocrystalline and Nanogranular Magnetic Materials, K. Hono
and M. Ohnuma, Japan
Hybrid Organic-Inorganic Nanostructured Magnets, Mihai A. Gîrtu, Romania
Preparation, Structure and Properties of Magnetic Nanocomposite Films, H. Wang
and S. P. Wong, Hong Kong, China
Micromagnetics of Nanoparticles and Nanoshaped Magnetic Elements,
Scott L. Whittenburg, USA
Magnetic and Magneto-transport Properties of Nanostructured Wires and Dots,
Teruya Shinjo, Japan
KEY FEATURES
First and only reference source ever published on all latest and emerging research aspects of magnetic nanostructures.
Provides comprehensive coverage of the hottest topics related to nanostructured magnetic materials, their preparative methods, processing into nanoscale multilayers, thin films, particles, wires and dots, spectroscopic characterization, microstructures, physical properties and potential industrial applications in magnetic data storage, magnetic sensors, spintronic devices, etc.
Twelve state-of-the-art review chapters written by world-renowned experts from both industry and academia.
About 3,000 bibliographic citations and hundreds of illustrations, figures, tables and equations.
Each chapter is fully cross-referenced introducing some of the most important nanotechnologies under development today.
A perfect multidisciplinary reference source for scientists, researchers, upper-level undergraduate and graduate students, college and university professors, and practitioners working in the field of magnetism and magnetic materials, nanotechnology, materials science, solid-state physics, electrical and electronics engineering, optical engineering, surface science, magnetic data storage and information technology. This book is very useful reference source for the libraries in universities and industrial institutions, governments and independent institutes, individual research groups and scientists working in the field of magnetism and magnetic materials.
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14楼2007-04-28 17:26:25
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zhaokelun1975

木虫 (著名写手)
Nanoclusters and Nanocrystals




Edited by
Hari Singh Nalwa, USA
Formerly of Hitachi Research Laboratory, Hitachi Ltd., JAPAN



February 2003
ca.300 pages, Hardcover
ISBN: 1-58883-017-9
US$299.00


Nanoclusters and Nanocrystals provides coverage on various aspects of nanoclusters and nanocrystals. This book covers topics on recent synthetic strategies to fabricate metallic or semiconducting nanoscale clusters and crystals, nanocrystalline films, control of size and shape of clusters and crystals, growth mechanism, spectroscopic characterization, amorphous and crystalline structures, physical properties and potential industrial applications in transducers and photocatalysis.
CONTENTS
Nanocrystalline Materials for Hydrogen Storage, J. Huot and R. Chahine
Nanocrystalline Metallic Materials, S. Gialanella and L. Lutterotti
Nanocrystalline Aluminium Alloys, Livio Battezzati , Simone Pozzovivo, and Paola Rizzi
Mechanically Synthesized Nanocrystals: Structure and Properties, P. Hideo Shingu,
Keiichi N. Ishihara, and Kei Yasuna
Physical Mechanisms of Plastic Flow in Nanocrystalline Materials, Mikhail Gutkin, Ilya Ovid'ko,
and Chandra Pande
Growth and Properties of Nanostructured Films Prepared by Cluster Deposition,
Pablo Jensen et al.
Nanoclusters as Transducers for Molecular Structure and Recognitive Binding,
Thomas G. M. Schalkhammer
Photocatalysis on Zeolites and Ordered Mesoporous Materials, V. L. Zholobenko, Amanda J. Evans, and Smantha L. Y. Tang
Segregation in Nanostructures, D. K. Beke, Cs. Cserhati, Z. Erdelyi and I. A. Szabo
KEY FEATURES
Most up-to-date reference work summarizing research on nanoclusters and nanocrystals.
Contains 9 state-of-the-art chapters written by research experts.
About 2,000 bibliographic citations and thousands of illustrations, figures, tables, chemical structures and equations
An essential resource for scientists, researchers, upper-level undergraduate and graduate students, college and university professors, working in the field of electrical and electronic engineering, materials science, solid-state physics, nanotechnology, crystal engineering, cluster science, computational engineering, device applications, etc.
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15楼2007-04-28 17:27:01
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zhaokelun1975

木虫 (著名写手)
Carbon Nanotubes: Basic Concepts and Physical Properties
Carbon Nanotubes: Basic Concepts and Physical Properties
Stephanie Reich, Christian Thomsen, Janina Maultzsch
ISBN: 978-3-527-40386-8
Hardcover224 pages


    * Description Carbon nanotubes are exceptionally interesting from a fundamental research point of view. Many concepts of one-dimensional physics have been verified experimentally such as electron and phonon confinement or the one-dimensional singularities in the density of states; other 1D signatures are still under debate, such as Luttinger-liquid behavior. Carbon nanotubes are chemically stable, mechanically very strong, and conduct electricity. For this reason, they open up new perspectives for various applications, such as nano-transistors in circuits, field-emission displays, artificial muscles, or added reinforcements in alloys.This text is an introduction to the physical concepts needed for investigating carbon nanotubes and other one-dimensional solid-state systems. Written for a wide scientific readership, each chapter consists of an instructive approach to the topic and sustainable ideas for solutions. The former is generally comprehensible for physicists and chemists, while the latter enable the reader to work towards the state of the art in that area. The book gives for the first time a combined theoretical and experimental description of topics like luminescence of carbon nanotubes, Raman scattering, or transport measurements. The theoretical concepts discussed range from the tight-binding approximation, which can be followed by pencil and paper, to first-principles simulations. We emphasize a comprehensive theoretical and experimental understanding of carbon nanotubes including
- general concepts for one-dimensional systems
- an introduction to the symmetry of nanotubes
- textbook models of nanotubes as narrow cylinders
- a combination of ab-initio calculations and experiments
- luminescence excitation spectroscopy linked to Raman spectroscopy
- an introduction to the 1D-transport properties of nanotubes
- effects of bundling on the electronic and vibrational properties and
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16楼2007-04-29 00:14:42
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ckwhutcn


眼馋

楼主
对这些已经发的书籍,可以在给下载么?
或者可以向你们寻求发送么?
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18楼2007-04-29 10:09:56
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shmilygre

银虫 (小有名气)
支持
我顶
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19楼2007-04-29 10:16:51
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bt2145

至尊木虫 (正式写手)
纳米类的不顶对不起党
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20楼2007-04-29 22:21:43
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zhg99

木虫 (著名写手)

604gq(金币+1):小木虫现在不能上传电子资源了,这是侵权行为,但是提供了资源的信息也是 很好的。如果你要得到此资源,你可以PM发贴的朋友。
不错,是好东西,不过从那可以得到呢,请教楼主。能否直接把这些书放上来?那样对虫友们更方便,谢谢!
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21楼2007-04-30 05:38:46
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nannan5000

木虫 (正式写手)
看不懂诶~~
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22楼2007-04-30 17:33:26
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lzuxz

金虫 (正式写手)
老大强帖阿
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23楼2007-05-01 02:13:38
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zhaokelun1975

木虫 (著名写手)
Cancer Nanotechnology – Nanomaterials for Cancer Diagnosis and Therapy




Edited by
Hari Singh Nalwa and Thomas Webster


July 2006
500 pages, Hardcover
ISBN: 1-58883-071-3
US$399.00


DESCRIPTION
Researchers from around the world are actively integrating nanotechnology into the treatment of various diseases that influence human health. This book on Cancer Nanotechnology is at the forefront of nanotechnology efforts relevant for a disease in which finding cures has proved problematic through conventional methods. Nanotechnology (and this book) takes an innovative fresh look at the prevention, diagnosis, and treatment of cancer. Specifically, on the biological side, topics covered in this book include: bone cancer, colon cancer, prostate cancer, gastric cancer, leukemia, bladder cancer, colorectal cancer, chemotherapy, use of stem cells in cancer treatment, immunotherapy, new cancer biological markers, as well as many others. On the nanotechnology side, the following concepts are integrated into cancer treatment: synthesis of nanoparticles, fabrication of bulk nanomaterials, use of tools (such as scanning probe and atomic force microscopy) in cancer research, elucidation of nanoscale mechanisms of cellular functions relevant to cancer, nanoscale computational modeling, and many others. Only by taking a fresh look at the prevention, diagnosis, and treatment of cancer through novel approaches such as, perhaps, the use of nanotechnology, will we begin to unravel the elusive aspects of cancer. Clearly, as this book addresses, these are necessary steps in finding cures for which nanotechnology may provide the answer. In summary, this book contains 20 review chapters and provides such existing data and perspectives on how nanotechnology may be used for all aspects of cancer including its prevention, diagnosis, and treatment.
CONTENTS
(1)
Nanoparticles for Treating Bone Cancer
(2)
Nanoparticulate Selenium for Anti-Cancer Orthopedic Implants
(3)
Nanoparticulate Drug Delivery for Cancer Therapy
(4)
Nanoparticles in Immunotherapy Against Cancer
(5)
Nanoparticle Photodynamic Therapy for Cancer Treatment
(6)
Multifunctional Nanoparticles for Targeted Imaging and Therapy
(7)
Superparamagnetic Iron Oxide Nanoparticles: Next Generation MR Contrast Agents and Intracranial Imaging Enhancers
(8)
Molecular Biomarkers in Early Cancer Detection
(9)
Applications of Nanoparticles in Detection and Treatment of Hormonal Cancer
(10)
Solid Tumor Physiology as a Target for Nanomedicines
(11)
Nanomagnetics and Magnetic Hyperthermia
(12)
Colon Cancer: Early Detection and Prevention by Food Compounds and Biomarkers of Preventive Effects Found by Employment
of Microarrays
(13)
Nano-scale Techniques in Prostate Cancer Management: From Basic Research to Clinic Settings
(14)
Cell Nucleus Nanofactory for Developing Anticancer Strategies
(15)
Multifunctional Pharmacutical Nanocarriers
(16)
Molecular and Cellular Mechanisms of Deregulated Hematopoietic Stem Cell Functions in Chronic Myeloid Leukemia
(17)
Scanning Probe/Atomic Force Microscopy in Cancer Cell Research
(18)
Development and Application of Microfluidic Devices for Cancer Cell Migration
(19)
Histogenesis of Gastric and Colorectal Cancer from the Minute-sized Same Carcinomatous Lesions of Pathological Examination
(20)
A Multiscale Approach for Computational Modeling of Biobarriers to Cancer Chemotherapy via Nanotechnology
READERSHIP
This book is a very valuable reference source for scientists, research professionals working in R&D laboratories, students, college and university professors working in the field of cancer, nanotechnology, medical sciences, health sciences, drug delivery, drug delivery systems, drug targeting, proteomics, gene therapy, biomaterials and biopolymers, pharmaceutics, biotechnology, biological sciences, nucleic acids, materials science, and chemistry.
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24楼2007-05-12 16:14:48
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zhaokelun1975

木虫 (著名写手)
Nanoparticles for Pharmaceutical Applications




Edited by
A. J. Domb, Y. Tabata, M. N. V. Ravi Kumar, and S. Farber



January 2007
500 pages, Hardcover
ISBN: 1-58883-089-6
US$399.00


DESCRIPTION
Nanoparticles for Pharmaceutical Applications deals with emerging new technologies for developing customized solutions for drug delivery systems. The drug delivery systems should positively impact the rate of absorption, distribution, metabolism, and excretion of the drug or other related chemical substances in the body. In addition, the drug delivery system should allow the drug to bind to its target receptor and influence that receptor’s signaling and activity. Drug delivery materials should be compatible, easy to bind with a particular drug, and able to degrade into fragments after use that are either metabolized or driven out via normal excretory routes. The book emphasizes the material-based technologies in the area of drug delivery that include solid lipid nanoparticles, liposomes, polysaccharides, polyesters, micelles, etc. The different route-based delivery systems such as oral, pulmonary, ocular, dermal, etc. are discussed. The focus is also on certain diseases to which these technologies can be applied for maximum benefits: cancer, tuberculosis, restenosis, etc. The topics also include gene and vaccine delivery as well as safety concerns of these nano-scale materials. The 22 state-of-the-art review chapters are written by world-renowned scientists working in the field of nanotechnology-based drug delivery systems.
CONTENTS
Recent Advances in Polyalkylcyanoacrylate Nanoparticles for Drug Delivery, Elias Fattal, Karine Andrieux, Gillian Barratt, Patrick Couvreur, Denis Labarre, Gilles Ponchel, and Christine Vauthier
Dendrimers and Hyperbranched Nanospheres with Medical Applications, Sõnke Svenson, and Donald A. Tomalia
Lipid Nanoparticles (SLN and NLC) for Drug Delivery, Eliana B. Souto and Rainer H. Müller
Liposomes for Drug Delivery, Pierre Simard, Jean-Christophe Leroux, Christine Allen, and Olivier Meyer
Polysaccharide-based Nanoparticles as Carriers for Drug and Vaccine Delivery, María José Alonso, Cecilia Prego, and Marcos García-Fuentes
The Impact of Surface Charge on Nanoparticle Performance, Oshrat Harush, Yoram Altschuler, and Simon Benita
Surface Modification of Nanoparticulate Drug Carriers, Vladimir P. Torchilin
Polymeric Micelles as Nano-sized Drug Carrier Systems, Masayuki Yokoyama
Polyester Nano- and Micro-particles by Polymerization and by Self-assembly of Macromolecules, Stanislaw Slomkowski
Characterization of Novel Intranasal Sustained-Release Nanoparticles for Delivery of Neuropeptides to the Brain, Michael J. Kubek, Michael Yard, Debomoy K. Lahiri, and Abraham J. Domb
Nanoparticles in Ocular Drug Delivery, Esther Eljarrat Binstock and Abraham J. Domb
Oral Drug Delivery, V. Bhardwaj and M. N. V. Ravi Kumar
Lymphatic Absorption of Nanoparticles, Pavel Gershkovich, Leonid Kagan, and Amnon Hoffman
Nanoparticles Aiming at Specific Targets--Dermal and Transdermal Delivery, Biana Godin and Elka Touitou
Nanoparticles for Respiratory Drug Delivery, R. Banerjee
Nanoparticles of Biodegradable Polymers for Cancer Chemotherapy, Si-Shen Feng, Priscilla Pui Sze Lee, and Khin Yin Win
Nanoparticles for the Treatment of Restenosis, Einat Cohen-Sela, M. Chorny, and G. Golomb
Nanostructured Polycation Materials for Gene Delivery, I. Yudovin-Farber and A. J. Domb
Nanotechnology: Implications for Antitubercular Chemotherapy, Rajesh Pandey and G. K. Khuller
Gelatin-based Nanomicelles, Toshihiro Kushibiki and Yasuhiko Tabata
Carbon Nanotubes: Role in Healthcare, Lalit M. Bharadwaj and Vijayender Bhalla
Toxicity Issues Related to Nanoparticulate Systems, Rajendra Pawar, Sudhakar Bhusare, and Yeshwant Vibhute
READERSHIP
This book is a valuable reference source for scientists, graduate students, engineers, industrial researchers, and other professionals working in the fields of pharmaceutical sciences, medicine, medicinal chemistry, drug delivery, clinical pharmacology, biotechnology, bionanotechnology, polymer science, materials science, chemistry, chemical biology, chemical engineering, biochemistry, biological engineering, biomedical sciences, and other related areas of life sciences.
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25楼2007-05-12 16:17:17
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zhaokelun1975

木虫 (著名写手)
Nanoscale Science and Engineering Education




Edited by
Aldrin E. Sweeney and Sudipta Seal,University of Central Florida, USA
Foreword by
Professor Harold W. Kroto, Nobel Prize Laureate
Dr. Mihail C. Roco, National Science Foundation, USA


2007 ca.500 pages, Hardcover
ISBN: 1-58883-085-3
US$299.00


FROM THE FOREWORD
"All in all, the volume covers almost all the key aspects of Nanoscience and Nanotechnology ..... integration of nanoscale science and engineering into the curricula of all age groups [ranging] from middle and high school students, to undergraduate students, and beyond. As important as anything else are children's perceptions of nanotechnology which also are addressed, as are societal and ethics issues".
Professor Harold W. Kroto, Nobel Prize Laureate
"The contributions [in this volume] address various levels of nanoscale science and engineering education, using various methodologies for classrooms and remote teaching, in various parts of the world, at the local to international levels. These shared experiences are on the front of the wave of new educational programs in the world. This collection may help in crystallizing more integrative approaches, and developing a nanotechnology education community".
Dr. Mihail C. Roco, National Science Foundation, USA
DESCRIPTION
Rapid advances in nanoscience and nanotechnology research indicate a need for corresponding science, engineering and medical education efforts. Issues relating to K-12 scientific and technological literacy become even more pressing concerns, given the extent to which advances in nanoscience and nanotechnology are expected to impact all aspects of human experience, e.g. healthcare and medicine, transportation, electronics, and environmental sustainability, to name but a few. This book contains 36 state-of-the-art chapters and addresses the following topics: (i) current efforts in the field of nanoscale science and engineering education; (ii) noteworthy examples showing the integration of nanotechnology in undergraduate education (chemistry, physics, biological sciences, engineering, environmental science, technology, etc.); (iii) efforts relating to general scientific and technological literacy/public awareness in nanoscale science and engineering; (iv) projects demonstrating the importance of nanoscale science and technology education at the K-12 level, and examples of how specific concepts have been integrated into science instruction at the primary and secondary school levels (pre-college/university); (v) curriculum development and assessment; (vi) social and ethical issues associated with nanoscale science and engineering research (vii) workforce preparation (professional and vocational), and (viii) national and state science standards and their relationships to the goals of nanotechnology initiatives worldwide. The book is written by leading experts who are interested and experienced in nanoscience and nanotechnology education.
CONTENTS
Developing a Viable Knowledge Base in Nanoscale Science and Engineering Education, Aldrin E. Sweeney and Sudipta Seal, USA
Teaching Nanotechnology in the K-12 Classroom, Kenneth Bowles, USA
Science Education in Nanotechnology: Examples using Computer Based Laboratory (CBL) Instrumentation, David D. Kumar and Rebecca Kerr, USA
Educational Efforts in K-12 Nanoscale Science and Engineering Education and Related-Research Studies Using Electron Microscopy, Andrea J. Harmer, USA
Exploring Nanoscale Science With Middle and High School Students, M. Gail Jones, USA
Center for Nanoscale Systems - Pre-College and College Level Efforts in Nanoscale Science and Engineering Education, Monica Plisch, USA
Research-based Courses in Nanotechnology for Sophomores and Nanoscience Modules for High School and Community College Students, Teri W. Odom, USA
Fuel Cells: A Tool for Nanotechnology Education, Carlos R. Cabrera (Puerto Rico) and Donald A. Tryk (Japan)
Nanoscience and Conceptions of Size and Scale in Pre-College Education, Thomas R. Tretter, USA
Microscopic Perspectives on Informal, Introductory and Industry Nanochallenges, Philip Fraundorf and Jingyue Liu, USA
Introductory Nanoscience and Nanotechnology for Undergraduates: A Liberal Arts Approach, Lon A. Porter, Jr. USA
Integration of Nanotechnology in Undergraduate Engineering Education, Ramesh K. Agarwal, USA
A Course on Introduction to Nanotechnology for Undergraduate Science and Engineering Majors, Meyya Meyyappan, USA
Development of A Nanosystems Engineering Undergraduate Degree, Hisham Hegab, James Palmer and Stan Napper, USA
Identifying and Removing Barriers to the Inclusion of Nanoscience in the Undergraduate Chemistry Curriculum, Thomas Holme, USA
Brightening The Science Curriculum with Semiconducting Nanocrystals, Russell G. Larsen, Norbert J. Pienta, Sarah C. Larsen, USA
Interdisciplinary Lab Course in Nanotechnology for Freshmen at The Florida Institute of Technology, K. J. Winkelmann, J. R. Brenner, J. G. Mantovani, USA
Nanotechnology Curriculum Development at Utah State University, Haeyeon Yang, USA
A Web-Based Video Lab Manual for Nanoscale Science and Technology, George Lisensky, Kenneth Lux, and Wendy Crone, USA
Nanoworlds: A Nanotechnology Course Model Using The Nanopedia, The Web Encyclopedia of Nanotechnology, Alexis R. Abramson, David A. Smith, Ethan Fry, Jason Miller, E. Burtch, K. Brown, N. Trombetta, USA
Integrating Nanoscale Science and Technology into Introductory Computer Science Courses, Russell Deaton, John Lusth, and Jin-Woo Kim, USA
An Innovative Approach to Introducing Nanotechnology into the Curriculum at a Minority Undergraduate Institution, Wilbur L. Walters Jr., Tigran Shahbazyan, and Frank Hagelberg, USA
Integration of Nanoscale Science and Technology Research into Undergraduate Curriculum at a Minority University, Branislav Vlahovic, Diane Markoff, Igor Bondarev, Igor Filikhin, Hiak Melikian, Gordana Vlahovic, and Marvin Wu, USA
Teaching Undergraduates Nanotechnology, John Shapter and Justin Gooding, Australia
European Activities in Nanoscience Education and Training, Marie-Isabelle Baraton (France), Raymond Monk, and Renzo Tomellini (Belgium)
Interdisciplinary Teaching in Nanotechnology: Experiences from an Undergraduate Degree Program offered at the University of Copenhagen, Eva Danielsen and Thomas Bjørnholm, Denmark
Engineering Nanoscience: A Curriculum to Satisfy the Future Needs of Industry, Knut Deppert, Rune Kullberg, and Lars Samuelson, Sweden
The Pennsylvania Partnership Approach to Nanotechnology Education and to the Building of a Nanotechnology Manufacturing Workforce, Stephen J. Fonash, Douglas E. Fenwick, and Paul M. Hallacher, USA
Nanomaterials Science and Engineering: An Enabling Paradigm Shift for Photonics, Energy, Electronics, and Biology, Brian R. Mayer, Stephen C. Danforth, and Lisa C. Klein, USA
Children's Perceptions of Nanotechnology: A Classroom Experiment, Brigitte Nerlich, David D. Clarke and Neil Champness, UK
Content and Pedagogy for Ethics Education in Nanoscale Science and Technology Development, Rosalyn W. Berne, USA
Rethinking Technological Literacy: The Challenge of Nanotechnology and Society Education, Clark A. Miller and Sarah K. A. Pfatteicher, USA
Nanoliteracy: Nurturing Understandings of Nanotechnology and Societal Interactions with Nanotech, Chris Toumey and Davis Baird, USA
Developing Nano Education at A Technological University: Science, Technology and Social Implications of Nanotechnology, John A. Jaszczak, Bruce E. Seely, USA
Introducing Nanotechnology and Society Issues into the Classroom, Greta Zenner and Wendy Crone, USA
Master's Level Nanotechnology Education, Robert W. Kelsall, UK
READERSHIP
Researchers and educators in related science, technology, engineering, and mathematics (STEM) disciplines with an interest in nanoscale science, engineering and medical education. Researchers, instructors, and education professionals interested in nanoscale science, technology, engineering, and medical education at the K-12, undergraduate and graduate levels.
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26楼2007-05-12 16:19:08
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zhaokelun1975

木虫 (著名写手)
Bottom-up Nanofabrication, 6-Volume Set
(Supramolecules, Self-Assemblies, and Organized Films)


  6-Volume Set
Edited by
Katsuhiko Ariga, National Institute of Materials Science, Japan
Hari Singh Nalwa, Editor-in-Chief, Journal of Nanoscience and Nanotechnology, USA


October 2007
3,500 pages, Hardcover
ISBN: 1-58883-079-9
US$2,999.00


ABOUT THIS HANDBOOK
Bottom-up Nanofabrication is the first and only reference work ever published to cover all aspects of the bottom-up nanofabrication. The bottom-up nanofabrication approaches are biology inspired which include building up functional nanostructures starting from basic atoms or molecules. The key point is the identification and manipulation of potential atoms and molecules and forming their based well-defined nanostructures in order to tailor and improve desired properties of used components through fabrication strategies. Process also involves control of molecular structures on the surface. This 6-Volume book brings together under a single cover all aspects of the bottom-up nanofabrication including all types of processing and fabrication methodologies, chemical and electrochemical synthesis, physical methods, nucleation and growth phenomena, functional supramolecular nanostructures, molecular self-assemblies and nanostructured films, spectroscopic characterization, electronic, optical, nonlinear optical, and magnetic properties, dynamic processes, molecular interactions, molecular design and computational modeling, and commercial applications of self-assembled nanostructures. This book covers interdisciplinary topics associated with the chemistry, physics, engineering and biology of supramolecular nanostruuctures, self-assemblies, and organized films. The six-volume set contains over 110 state-of-the-art review chapters written by internationally renowned experts from around the world.
KEYWORDS
Bottom-up Nanofabrication contains over 110 state-of-the-art review chapters on the following research topics dealing with self-assembled nanostructures.
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zhaokelun1975

木虫 (著名写手)
Bottom-up Nanofabrication, 6-Volume Set
(Supramolecules, Self-Assemblies, and Organized Films)


  6-Volume Set
Edited by
Katsuhiko Ariga, National Institute of Materials Science, Japan
Hari Singh Nalwa, Editor-in-Chief, Journal of Nanoscience and Nanotechnology, USA


October 2007
3,500 pages, Hardcover
ISBN: 1-58883-079-9
US$2,999.00


ABOUT THIS HANDBOOK
Bottom-up Nanofabrication is the first and only reference work ever published to cover all aspects of the bottom-up nanofabrication. The bottom-up nanofabrication approaches are biology inspired which include building up functional nanostructures starting from basic atoms or molecules. The key point is the identification and manipulation of potential atoms and molecules and forming their based well-defined nanostructures in order to tailor and improve desired properties of used components through fabrication strategies. Process also involves control of molecular structures on the surface. This 6-Volume book brings together under a single cover all aspects of the bottom-up nanofabrication including all types of processing and fabrication methodologies, chemical and electrochemical synthesis, physical methods, nucleation and growth phenomena, functional supramolecular nanostructures, molecular self-assemblies and nanostructured films, spectroscopic characterization, electronic, optical, nonlinear optical, and magnetic properties, dynamic processes, molecular interactions, molecular design and computational modeling, and commercial applications of self-assembled nanostructures. This book covers interdisciplinary topics associated with the chemistry, physics, engineering and biology of supramolecular nanostruuctures, self-assemblies, and organized films. The six-volume set contains over 110 state-of-the-art review chapters written by internationally renowned experts from around the world.
KEYWORDS
Bottom-up Nanofabrication contains over 110 state-of-the-art review chapters on the following research topics dealing with self-assembled nanostructures.
(1) Functional Supramolecular Nanostructures

Bacteriochlorophyll

Biological Supramolecules

Catenanes

Dendrimers

Fibers

Fullerenes

Heteroacenes and Heterohelicenes

Molecular Capsules

Molecular Grids

Molecular Recognition

Polymers and Block Copolymers

Polypeptides

Rotaxanes and Polyrotaxanes

Structure-defined Polymers (2) Molecular Self-Assembly

Amino Acids

Biological Self-Assemblies

Biomaterials

Biomineralization

Carbohydrates

Carbon Nanotubes

Ceramic Composites

Colloidal Self-Assemblies

Conjugated Polymers

Coordination Complexes

Dissipative Patterns

Enzymes

Fullerenes

Gels

Hydrogen-Bonded Crystals

Inorganic Nano-assemblies

Lipid Assemblies

Liquid Crystals

Nanocrystals

Nanospheres

Nanocomposites

Nanoparticles

Nanoporous Materials

Nanowires

Nucleic Acids

Oligosaccharides Assemblies

Organic-Inorganic Hybrids

Peptides

Polymer Self-Assemblies

Phthlocyanine Arrays

Porphyrin Arrays

Proteins

Quantum Dots

Self-Assembled Fibers

Self-assembled Tubes

Self-Assemblies for Molecular Devices

Surfactants (3) Organized films

Biomaterials Films

Cast Films

Dip-Pen Nanolithography

Functional Interfaces

Langmuir Monolayers

Langmuir-Blodgett Films

Layer-by-Layer Assembled Films

Lipid Bilayers

Liquid Crystals

Multi-layered Films

Nanoparticle Layers

Nano-patterning

Polymer Thin Films

Self-Assembled Monolayers

Semiconductor Nanostructures (4) Applications

Biochips

Biological Devices

Biomedical Applications

Biosensors

Catalysts

Chemical Sensors

Electronic Devices

Environmental Chemistry

Magnetic Recording Media

Membranes

Molecular Switches

Nanosensors

Photonic Devices

Radiation Sensors

Solar Cells
KEY FEATURES

Most up-to-date reference work summarizing two decades of pioneering research on nanofabrication

Over 110 in-depth state-of-the art review chapters contributed by more than 200 of the world's leading experts.

Edited and written by internationally known authoritative experts in the field

Truly international: authors from 12 countries

Over 20,000 bibliographic citations providing extensive cross-referencing in each article

Thousands of illustrations, figures, tables, and equations.

Timely, authoritative and most comprehensive
READERSHIP
A perfect multidisciplinary reference source for scientists, engineers, researchers, upper-level undergraduate and graduate students, college and university professors, and research professionals both in academia and industry working in the fields of chemistry, physics, molecular biology, engineering, materials science and technology, polymer science, organic inorganic chemistry, supramolecular chemistry, nanotechnology, nanobiotechnology, analytical chemistry, biochemistry, biomimetic chemistry, surface and colloids science, chemical physics, biotechnology, and information technology.
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28楼2007-06-22 17:46:46
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myhzxl

木虫 (正式写手)
都太贵了,如果传上来就好 .我需要复合物的
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30楼2007-06-26 08:58:36
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nanoeer

木虫 (正式写手)

★★★ 三星级,支持鼓励

挺好!!!!!
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32楼2007-07-02 13:08:38
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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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33楼2007-07-12 16:33:53
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变形记

金虫 (小有名气)
这些书都能下么?
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34楼2007-08-07 21:49:18
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简单回复
604gq17楼
2007-04-29 08:26   回复  
del [ Last edited by 604gq on 2007-4-29 at 14:08 ]
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2007-06-25 20:57   回复  
liminfang31楼
2007-07-01 22:44   回复  
 
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