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040   $aDip.to di Studi Storici$bita
082 04$a945.803
100 1 $aCohn, Willy$0154209
245 14$aDie Geschichte der sizilischen Flotte, 1060-1266 :$bvereinigter Neudruck dreier Abhandlungen aus den Jahren 1910-1926 mit Anhang: Die Basler Konzilsflotte des Jahres 1437. Die Bedeutung der Seemacht in der Geschichte /$cvon Willy Cohn
250   $arist. anastatica di varie edizioni
260   $aAalen :$bScientia,$c1978
300   $ap. varia ;$c20 cm
440  0$aHistorische untersuchungen
650  4$aNormanni$xItalia meridionale$ySec.11.-12.
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996   $aGeschichte der sizilischen Flotte 1060-1266$9612172
997   $aUNISALENTO
998   $ale023$b  -  -  $cm$da  $e-$fger$gde $h4$i0

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100   $a20110308d2011      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aNanotechnology $ean introduction /$fJeremy Ramsden
210   $aBoston $cElsevier$d2011
215   $a1 online resource (289 p.)
225 1 $aMicro & nano technologies series
300   $aDescription based upon print version of record.
311   $a0-08-096447-8 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Nanotechnology: An Introduction; Copyright; Table of Contents; Preface; Chapter 1.What is Nanotechnology?; 1.1Definitions and Concepts; 1.2An Ostensive Definition of Nanotechnology; 1.3A Brief History of Nanotechnology; 1.4Biology as Paradigm; 1.5Why Nanotechnology?; 1.6Summary; 1.7Further Reading; Chapter 2.The Nanoscale; 2.1The Size of Atoms; 2.2Molecules and Surfaces; 2.3Nucleation; 2.4Chemical Reactivity; 2.5Electronic and Optical Properties; 2.6Magnetic and Ferroelectric Properties; 2.7Mechanical Properties; 2.8Quantum Smallness; 2.9Summary; 2.10Further Reading
327   $aChapter 3.Forces at the Nanoscale3.1The Casimir Force; 3.2Intermolecular Interactions; 3.3 Capillary Force; 3.4Heterogeneous Surfaces; 3.5Weak Competing Interactions; 3.6Cooperativity; 3.7Percolation; 3.8The Structure of Water; 3.9Summary; 3.10Further Reading; Chapter 4.The Nano/Bio Interface; 4.1The ""Physical"" Nano/Bio Interface; 4.2Nanomedicine; 4.3Nanotoxicology; 4.4Summary; 4.5Further Reading; Chapter 5.Nanometrology; 5.1Topography; 5.2Chemical Surface Structure (Chemography); 5.3The Metrology of Self-Assembly; 5.4The Representation of Texture; 5.5Metrology of the Nano/Bio Interface
327   $a5.6Summary5.7Further Reading; Chapter 6.Nanomaterials and their Production; 6.1Nanoparticles; 6.2Nanofibers; 6.3Nanoplates and Ultrathin Coatings; 6.4Crystallization and Supramolecular Chemistry; 6.5Composites; 6.6Summary; 6.7Further Reading; Chapter 7.Nanodevices; 7.1Issues of Miniaturization; 7.2Digital Information Processing; 7.3Quantum Computing; 7.4Electronic Devices; 7.5Trends in the Miniaturization of Electronics; 7.6Spintronics (Magnetic Devices); 7.7Photonic Devices; 7.8Mechanical Devices; 7.9Fluidic Devices; 7.10Summary; 7.11Further Reading; Chapter 8.Nanofacture of Devices
327   $a8.1Top-Down Methods8.2Bottom-Up Methods; 8.3Bottom-to-Bottom Methods; 8.4Summary; 8.5Further Reading; Chapter 9. Carbon-Based Nanomaterials and Devices; 9.1Graphene; 9.2Carbon Nanotubes; 9.3Carbon Nanoparticles (Fullerenes); 9.4Materials Applications; 9.5Device Components and Devices; 9.6 Summary; 9.7Further Reading; Chapter 10.Nanosystems and their Design; 10.1Systems; 10.2 Materials selection; 10.3Defects in Nanograins; 10.4Spacial Distribution of Defects; 10.5Strategies to Overcome Component Failure; 10.6Computational Modeling; 10.7""Evolutionary"" Design; 10.8Performance Criteria
327   $a10.9 Scaleout10.10Standardization; 10.11Creative Design; 10.12Produceability; 10.13Summary; 10.14Further Reading; Chapter 11.Bionanotechnology; 11.1The Structural Nature of Biomolecules; 11.2Some General Characteristics of Biological Molecules; 11.3The Mechanism of Biological Machines; 11.4DNA as Construction Material; 11.5Biosensors; 11.6Biophotonic Devices; 11.7Summary; 11.8Further Reading; Chapter 12.The Impact of Nanotechnology; 12.1 Technical Revolutions; 12.2Scientific Impacts; 12.3Technical Impacts; 12.4Commercial and Economic Impacts; 12.5Environmental Impacts; 12.6Social Implications
327   $a12.7 Impacts on Individual Psychology
330   $a This book provides an overview of the rapidly growing and developing field of nanotechnology, focusing on key essentials and structured around a robust anatomy of the subject. The newcomer to nanotechnology, who may well have a strong background in one of the traditional disciplines such as physics, mechanical or electrical engineering, chemistry or biology or who may have been working in microelectromechanical systems (MEMS) technology, is confronted with a bewildering range of information. This book brings together the principles, theory and practice of nanotechnology, giving a broad yet 
410  0$aMicro & nano technologies.
606   $aNanotechnology
615  0$aNanotechnology.
676   $a620.5
700   $aRamsden$b Jeremy$0869733
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9911004747603321
996   $aNanotechnology$94392355
997   $aUNINA