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" Molecular Building Blocks for Nanotechnology: From Diamondoids to Nanoscale Materials and Applications"
(April 20, 2007) | 428 pages | PDF | 12 Mb


This book deals with a "bottom-up" approach to building nanostructured systems, where one starts with atoms and molecules, which constitute the molecular building blocks (MBBs), and assembles them to build a nanostructured material. Nanotechnology MBBs are distinguished for their unique properties. They include, for example, graphite, fullerene, carbon nanotubes, diamondoids, nanowires, nanocrystals and amino acids. All these MBBs, and more, are candidates for various applications in nanotechnology. These building blocks have quite unique properties not found in small molecules. Some of these MBBs are electrical conductors, some are semiconductors, some are photonic, and the characteristic dimension of each is a few nanometers. The examples covered in this book by the sixteen chapters written by authorities all around the world include: (1) carbon nanotubes, which are five times lighter and five times stronger than steel; (2) nanowires, which can be made of metals, semiconductors, or even different types of semiconductors within a single wire; and (3) diamondoids, a form of pure carbon materials which provide excellent building blocks for positional (or robotic) assembly as well as for self-assembly.

The applications of MBBs as presented in this book should enable the practitioner of nanotechnology to design and build systems on a nanometer scale. The controlled synthesis of MBBs and their subsequent assembly (self-assembly, self-replication or positional-assembly) into nanostructures is a fundamental theme of nanotechnology. These promising nanotechnology concepts with far-reaching implications (from mechanical to chemical processes; from electronic components to ultra-sensitive sensors; from medical applications to energy systems; and from pharmaceuticals to agricultural and food chains) will impact every aspect of our future.

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"Biomedical Applications of Nanotechnology"
(August 13, 2007) | 249 pages | 3,4 Mb


An overview of nanotechnology and its potential

The field of nanotechnology is undergoing rapid developments on many fronts. This reference provides a comprehensive review of various nanotechnologies with a view to their biomedical applications. With chapters contributed by distinguished scientists from diverse disciplines, Biomedical Applications of Nanotechnology :
Reviews recent advances in the designing of various nanotechnologies based on nucleic acids, polymers, biomaterials, and metals
Discusses biomedical nanotechnology in areas such as drug and gene delivery
Covers advanced aspects of imaging and diagnostics
Includes a chapter on the issue of nanotoxicology
Complete with figures and tables, this is a practical, hands-on reference book for researchers in pharmaceutical and biotech industries, biomedical engineers, pharmaceutical scientists, pharmacologists, and materials scientists as well as for the policymakers who need to understand the potential of nanotechnology. It is also an excellent resource book for graduate-level students in pharmaceutical sciences, biomedical engineering, and other fields in which nanotechnology is playing an increasingly important role.

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Principles and Applications of NanoMEMS Physics (Microsystems)
| | PDF | 7.3 Mb | 254 page

The field of Nanotechnology, which aims at exploiting advances in the fabrication and controlled manipulation of nanoscale objects, is attracting worldwide attention. This attention is predicated upon the fact that obtaining early supremacy in this field of miniaturization may well be the key to dominating the world economy of the 21st century, and beyond. NanoMEMS exploits the convergence between nanotechnology and microelectromechanical systems (MEMS) brought about by advances in the ability to fabricate nanometer-scale electronic and mechanical device structures. In this context, NanoMEMS-based applications will be predicated upon a multitude of physical phenomena, e.g., electrical, optical, mechanical, magnetic, fluidic, quantum effects and mixed domain.

Principles and Applications of NanoMEMS Physics presents the first unified exposition of the physical principles at the heart of NanoMEMS-based devices and applications. In particular, after beginning with a comprehensive presentation of the fundamentals and limitations of nanotechnology and MEMS fabrication techniques, the book addresses the physics germane to this dimensional regime, namely, quantum wave-particle phenomena, including, the manifestation of charge discreteness, quantized electrostatic actuation, and the Casimir effect, and quantum wave phenomena, including, quantized electrical conductance, quantum interference, Luttinger liquids, quantum entanglement, superconductivity and cavity quantum electrodynamics. Potential building blocks are also addressed for NanoMEMS applications, including, nanoelectromechanical quantum circuits and systems such as charge detectors, the which-path electron interferometer, and the Casimir oscillator, as well as a number of quantum computing implementation paradigms. Finally, NanoMEMS applications in photonics are addressed, including nanophotonic light sources and plasmonic devices.

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Nanotechnology: Basic Science and Emerging Technologies
| 2002-06-27 | | 290 pages | PDF | 4,8 Mb

The emergence of nanoscience portends a revolution in technology that will soon impact virtually every facet of our technological lives. Yet there is little understanding of what it is among the educated public and often among scientists and engineers in other disciplines. Furthermore, despite the emergence of undergraduate courses on the subject, no basic textbooks exist. Nanotechnology: Basic Science and Emerging Technologies bridges the gap between detailed technical publications that are beyond the grasp of nonspecialists and popular science books, which may be more science fiction than fact. It provides a fascinating, scientifically sound treatment, accessible to engineers and scientists outside the field and even to students at the undergraduate level. After a basic introduction to the field, the authors explore topics that include molecular nanotechnology, nanomaterials and nanopowders, nanoelectronics, optics and photonics, and nanobiometrics. The book concludes with a look at some cutting-edge applications and prophecies for the future. Nanoscience will bring to the world technologies that today we can only imagine and others of which we have not yet dreamt. This book lays the groundwork for that future by introducing the subject to those outside the field, sparking the imaginations of tomorrow's scientists, and challenging them all to participate in the advances that will bring nanotechnology's potential to fruition.

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“Nanotechnology: Molecular Speculations on Global Abundance"
| 1996-08-01 || PDF | 226 pages | 1,1 Mb


Technology is becoming molecularly precise. Nanotechnology, otherwise known as molecular engineering, will soon create effective machines as small as DNA. This capacity to manipulate matter -- to program matter -- with atomic precision will utterly change the economic, ecological, and cultural fabric of our lives. This book, which is accessible to a broad audience while providing references to the technical literature, presents a wide range of potential applications of this new material technology.

The first chapter introduces the basic concepts of molecular engineering and demonstrates that several mutually reinforcing trends in current research are leading directly into a world of surprisingly powerful molecular machines. Nine original essays on specific applications follow the introductory chapter. The first section presents applications of nanotechnology that interact directly with the molecular systems of the human body. The second presents applications that function, for the most part, outside the body. The final section details the mechanisms of a universal human-machine interface and the operation of an extremely high resolution display system.



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Nano: The Essentials - Understanding Nanoscience and Nanotechnology
| Pages: 432 | 2008-04-15 | PDF | 6 MB


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Master the Fundamentals of Nanotechnology to Prepare for Nano-Related Career Opportunities. If you want to move into the fast-growing field of nanotechnology, you can't afford to miss Nano--The Essentials. This career-building resource offers a rigorous, technological introduction to the fundamentals of nanotechnology, providing everything you need to enter this burgeoning discipline and prepare for nano-related jobs. Packed with over 100 detailed illustrations and lots of practical work-related advice, the book covers the experimental tools of nanotechnology, the basics of nanomaterials, and key applications in fields such as nanosensors, nanobiology, nanomedicine, and nanomachines. This on-target guide takes readers step-by-step through the manipulation of materials in the nanoscale fullerenes carbon nanotubes self-assembled nanolayers gas-phase clusters monolayer-protected metal nanoparticles core-shell nanoparticles and much more. Comprehensive and easy-to-understand, Nano--The Essentials features: A solid introduction to the fundamentals of nanomaterials Full details on the experimental tools used in nanotechnology The latest advances in nanobiology and nanomedicine Breakthroughs in the development of nanosensors Cutting-edge innovations in molecular nanomachines Inside this Expert Introduction to the Basics of Nanotechnology Introduction Manipulating Materials in the Nanoscale Fullerenes Carbon Nanotubes Self-Assembled Nanolayers Gas-Phase Clusters Semiconductor Quantum Dots Monolayer-Protected Metal Nanoparticles Core-Shell Nanoparticles Nanoshells Nanobiology Nanosensors Nanomedicines Molecular Nanomachines Nanotribology Societal Implications.

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"Handbook of Microscopy for Nanotechnology (Nanostructure Science & Technology)"
| Number Of Pages: 742 | 2005-03-21 | PDF | 16 Mb

Nanostructured materials take on an enormously rich variety of properties and promise exciting new advances in micromechanical, electronic, and magnetic devices as well as in molecular fabrications. The structure-composition-processing-property relationships for these sub 100 nm-sized materials can only be understood by employing an array of modern microscopy and microanalysis tools. Handbook of Microscopy for Nanotechnology aims to provide an overview of the basics and applications of various microscopy techniques for nanotechnology. This handbook highlights various key microcopic techniques and their applications in this fast-growing field. Topics to be covered include the following: scanning near field optical microscopy, confocal optical microscopy, atomic force microscopy, magnetic force microscopy, scanning turning microscopy, high-resolution scanning electron microscopy, orientational imaging microscopy, high-resolution transmission electron microscopy, scanning transmission electron microscopy, environmental transmission electron microscopy, quantitative electron diffraction, Lorentz microscopy, electron holography, 3-D transmission electron microscopy, high-spatial resolution quantitative microanalysis, electron-energy-loss spectroscopy and spectral imaging, focused ion beam, secondary ion microscopy, and field ion microscopy.



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, "Nanotechnology-Enabled Sensors"
| 492 pages | PDF | 27,5 Mb

Nanotechnology provides us with tools to create functional materials, devices, and systems by controlling materials at the atomic and molecular scales by making use of novel properties and phenomena. Considering that most chemical and biological sensors, as well as many physical sensors, depend on interactions occurring within the nanoscale range, the impact that nanotechnology will have on the sensor world is significant. Nanotechnology-enabled sensors find applications in several fields such as health and safety, medicine, process control and diagnostics. Nanostructured materials will be increasingly used for the development of next-generation of chemical, physical and biosensors, attracting interests in the scientific and industrial communications. This book provides the reader with information on how nanotechnology enabled sensors are currently being used and how they will be used in the future in such diverse fields as communications, building and facilities, medicine, safety, and security, including both homeland defense and military operations.

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"Nanotechnology: Societal Implications"
| 515 pages | PDF | 11,5 Mb

Advances in nanoscience and nanotechnology promise to have major impacts on human health, wealth, and peace in the coming decades. Among the expected breakthroughs are orders of magnitude increases in computer efficiency, human organ restoration using engineered tissue, `designer' materials created from directed assembly of atoms and molecules, and the emergence of entirely new phenomena in chemistry and physics. This book includes a collection of essays by leading scientists, engineers, and social scientists reviewing the possible uses of these impending technical developments in various industrial, medical, and national security applications, and the corresponding ethical, legal, social, economic, and educational issues that they raise. The report outlines potential areas for research into societal implications of nanotechnology, as well as some preliminary suggestions for how potential positive impacts of nanotechnology can be maximized, while minimizing any possible negative impacts, real or imagined. This book also provides the beginning of a blueprint for how one should address second-order consequences of the new technology, either positive implications or potential risks. This material was prepared under the auspices of the US National Nanotechnology Initiative (NNI). The issues raised in the book are global in scope, going far beyond the immediate impact of the NNI. They ask the general questions of how history and the human condition are affected by technological progress, and how individuals and institutions can seek to guide that progress in ways most beneficial to mankind in the long run.

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"Nanotechnology in Catalysis 3 "
| 338 pages | PDF | 8,3 Mb

This volume continues the tradition formed in Nanotechnology in Catalysis 1 and 2. As with those books, this one is based upon an ACS symposium. Some of the most illustrious names in heterogeneous catalysis are among the contributors.

The book covers:
- Design, synthesis, and control of catalysts at nanoscale
- Understanding of catalytic reaction at nanometer scale
- Characterization of nanomaterials as catalysts
- Nanoparticle metal or metal oxides catalysts
- Nanomaterials as catalyst supports
- New catalytic applications of nanomaterials

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Semiconductor Nanostructures for Optoelectronic Applications | PDF | 7,7 Mb | 412 pages

Written by today's best researchers of semiconductor nanostructures, this cutting-edge resource provides a snapshot of this exciting and fast-changing field. The book covers the latest advances in nanotechnology and discusses the applications of nanostructures to optoelectronics, photonics, and electronics. You learn how to grow, characterize and design optoelectronic devices using semiconductor nanostrucutres, and how to incorporate semiconductor nanostructures materials into conventional quantum well devices. Moreover, the book reviews optical, electronic, and structural characterization techniques to help you determine the properties of nanostructures and explore novel nanostructured materials. This unique reference describes revolutionary devices that have been enabled by the growth of quantum dots, including quantum dot lasers and quantum dot detectors. You find detailed discussions on some of the more promising semiconductor material systems that have demonstrated nanostructuring, such as III-Nitrides, antimony-based, Silicon germanium, and Zinc Oxide. The book also provides a solid understanding of ordered carbon nanotubes and related structures, along with explanations of their novel uses as infrared detectors and solar cells.


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