| Titre : | Oxford Handbook of Nanoscience and Technology Vol. 2 : materials: structures, properties, and characterization techniques | | Type de document : | texte imprimé | | Auteurs : | A. V. Narlikar, Auteur ; Y. Y. Fu, Auteur | | Editeur : | New york : Oxford University Press Inc | | Année de publication : | 2010 | | Importance : | 934 p. | | Présentation : | ill. | | Format : | 25,1 cm. | | ISBN/ISSN/EAN : | 978-0-19-953305-3 | | Langues : | Anglais (eng) | | Mots-clés : | carbon nanotubes nanographene carbon nanomaterials scanning transmission electron microscopy photonic lattices semiconductor nanostructures nanostructured crystals nanocrystalline zeolites magnetic nanowires protein-DNA conjugates | | Index. décimale : | 25-05 Application du traitement numérique du signal | | Résumé : | This is an agenda-setting and high-profile book that presents an authoritative and cutting-edge analysis of nanoscience and technology. The Oxford Handbook of Nanoscience and Technology provides a comprehensive and accessible overview of the major achievements in different aspects of this field. The Handbook comprises 3 volumes, structured thematically, with 25 chapters each. Volume I presents fundamental issues of basic physics, chemistry, biochemistry, tribology
etc. of nanomaterials. Volume II focuses on the progress made with host of nanomaterials including DNA and protein based nanostructures. Volume III highlights engineering and related developments, with a focus on frontal application areas. All chapters are written by noted international experts in the
field. The book should be useful for final year undergraduates specializing in the field. It should prove indispensable to graduate students, and serious researchers from academic and industrial sectors working in the field of Nanoscience and Technology from different disciplines including Physics, Chemistry, Biochemistry, Biotechnology, Medicine, Materials Science, Metallurgy, Ceramics, Information Technology as well as Electrical, Electronic and Computational Engineering. | | Note de contenu : | Table of contents
1. Optical Properties of Carbon Nanotubes and Nano-Graphene
2. Defects and Disorder in Carbon Nanotubes
3. Roles of Shape and Space in Electronic Properties of Carbon Nanomaterials
4. Identification and Separation of Metallic and Semiconducting Carbon Nanotubes
5. Size Dependent Phase Transitions and Phase Reversal at the Nanoscale
6. Scanning Transmission Electron Microscopy of Nanostructures
7. Harmonic Detection of Resonance Methods for Micro- And Nano-Cantilevers: Theory and Selected Applications
8. Microspectroscopy as a Tool to Discriminate Nano-Molecular Cellular Alterations in Biomedical Research
9. Holographic Laser Processing for Three-Dimensional Photonic Lattices
10. Nano-Analysis of Materials Using Near-Field Raman Spectroscopy
11. Scanning Squid Microscope Study of Vortex States and Phases in Superconducting Mesoscopic Dots, Antidots, and Other Structures
12. New Phenomena in the Nano-Space of Single Wall Carbon Nanotubes
13. Thermopower of Lowdimensional Structures: the Effect of Electron-Phonon Coupling
14. Zno Wide Bandgap Semiconductor Nanostructures: Growth, Characterization and Applications
15. Selective Self-Assembly of Semimetal Straight and Branched Nanorods on Inert Substrates
16. Nanostructured Crystals: an Unprecedented Class of Hybrid Semiconductors Exhibiting Structure-Induced Quantum Confinement Effect and Systematically Tunable Properties
17. Nanoscale GE1-XMNxTE Ferromagnetic Semiconductors
18. Synthesis, Characterization and Environmental Applications of Nanocrystalline Zeolites
19. Unusual Properties of Nanoscale Ferroelectrics
20. Magnetic Properties of Nanoparticles
21. Structural, Electronic, Magnetic, and Transport Properties of Carbon-Fullerene Based Polymers
22. Magnetic Nanowires: Fabrication and Characterization
23. Iron Oxide Nanostructures with Emphasis on Nanowires
24. DNA-Based Self-Assembly of Nanostructures
25. Properties and Potential of Protein-DNA Conjugates for Analytic Applications |
Oxford Handbook of Nanoscience and Technology Vol. 2 : materials: structures, properties, and characterization techniques [texte imprimé] / A. V. Narlikar, Auteur ; Y. Y. Fu, Auteur . - New york : Oxford University Press Inc, 2010 . - 934 p. : ill. ; 25,1 cm. ISBN : 978-0-19-953305-3 Langues : Anglais ( eng) | Mots-clés : | carbon nanotubes nanographene carbon nanomaterials scanning transmission electron microscopy photonic lattices semiconductor nanostructures nanostructured crystals nanocrystalline zeolites magnetic nanowires protein-DNA conjugates | | Index. décimale : | 25-05 Application du traitement numérique du signal | | Résumé : | This is an agenda-setting and high-profile book that presents an authoritative and cutting-edge analysis of nanoscience and technology. The Oxford Handbook of Nanoscience and Technology provides a comprehensive and accessible overview of the major achievements in different aspects of this field. The Handbook comprises 3 volumes, structured thematically, with 25 chapters each. Volume I presents fundamental issues of basic physics, chemistry, biochemistry, tribology
etc. of nanomaterials. Volume II focuses on the progress made with host of nanomaterials including DNA and protein based nanostructures. Volume III highlights engineering and related developments, with a focus on frontal application areas. All chapters are written by noted international experts in the
field. The book should be useful for final year undergraduates specializing in the field. It should prove indispensable to graduate students, and serious researchers from academic and industrial sectors working in the field of Nanoscience and Technology from different disciplines including Physics, Chemistry, Biochemistry, Biotechnology, Medicine, Materials Science, Metallurgy, Ceramics, Information Technology as well as Electrical, Electronic and Computational Engineering. | | Note de contenu : | Table of contents
1. Optical Properties of Carbon Nanotubes and Nano-Graphene
2. Defects and Disorder in Carbon Nanotubes
3. Roles of Shape and Space in Electronic Properties of Carbon Nanomaterials
4. Identification and Separation of Metallic and Semiconducting Carbon Nanotubes
5. Size Dependent Phase Transitions and Phase Reversal at the Nanoscale
6. Scanning Transmission Electron Microscopy of Nanostructures
7. Harmonic Detection of Resonance Methods for Micro- And Nano-Cantilevers: Theory and Selected Applications
8. Microspectroscopy as a Tool to Discriminate Nano-Molecular Cellular Alterations in Biomedical Research
9. Holographic Laser Processing for Three-Dimensional Photonic Lattices
10. Nano-Analysis of Materials Using Near-Field Raman Spectroscopy
11. Scanning Squid Microscope Study of Vortex States and Phases in Superconducting Mesoscopic Dots, Antidots, and Other Structures
12. New Phenomena in the Nano-Space of Single Wall Carbon Nanotubes
13. Thermopower of Lowdimensional Structures: the Effect of Electron-Phonon Coupling
14. Zno Wide Bandgap Semiconductor Nanostructures: Growth, Characterization and Applications
15. Selective Self-Assembly of Semimetal Straight and Branched Nanorods on Inert Substrates
16. Nanostructured Crystals: an Unprecedented Class of Hybrid Semiconductors Exhibiting Structure-Induced Quantum Confinement Effect and Systematically Tunable Properties
17. Nanoscale GE1-XMNxTE Ferromagnetic Semiconductors
18. Synthesis, Characterization and Environmental Applications of Nanocrystalline Zeolites
19. Unusual Properties of Nanoscale Ferroelectrics
20. Magnetic Properties of Nanoparticles
21. Structural, Electronic, Magnetic, and Transport Properties of Carbon-Fullerene Based Polymers
22. Magnetic Nanowires: Fabrication and Characterization
23. Iron Oxide Nanostructures with Emphasis on Nanowires
24. DNA-Based Self-Assembly of Nanostructures
25. Properties and Potential of Protein-DNA Conjugates for Analytic Applications |
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Oxford Handbook of Nanoscience and Technology Vol. 2 / A. V. Narlikar
