PRZEDMIOTEM OFERTY JEST KOD DOSTĘPOWY DO KSIĄŻKI ELEKTRONICZNEJ (EBOOK)
KSIĄŻKA JEST DOSTĘPNA NA ZEWNĘTRZNEJ PLATFORMIE. KSIĄŻKA NIE JEST W POSTACI PLIKU.
The book presents nanoscience and nanotechnology to a broad audience that does not necessarily have a scientific background. This book starts with the fundamental physicochemical properties of nanoparticles and nanostructures, and discusses how these special properties can be manipulated to produce high-performance materials and devices. In the following chapters, the scope is broadened to cover naturally occurring nanoparticles and artificially-engineered carbon nanoparticles, their mechanical properties, and their importance to the rest of nanotechnology. The book also covers the two design ideologies for manufacturing nanostructures, thebottom-upandtop-downmethods, and discusses how these two can be combined to allow for the imaging, probing and manipulation of nanostructures. The remainder of the book surveys the current state of nanotechnology, including the use of single-nanoparticle devices in data storage, electronics, optics, and solar power; advances in nanoparticle manufacturing and biotechnology that can lead to powerful new cancer treatments; and the use of nanotechnology to study the “quantum vacuum”.
- Autorzy: Chris Binns
- Wydawnictwo: Wiley Global Research (STMS)
- Data wydania: 2021
- Wydanie: 2
- Liczba stron:
- Forma publikacji: ePub (online)
- Język publikacji: angielski
- ISBN: 9781119172253
BRAK MOŻLIWOŚCI POBRANIA PLIKU. Drukowanie: OGRANICZENIE DO 10 stron. Kopiowanie: OGRANICZENIE DO 2 stron.
- Cover
- Title Page
- Copyright Page
- Preface to Second Edition
- Acknowledgments
- Introduction to Second Edition
- I.1 Incremental Nanotechnology
- I.2 Evolutionary Nanotechnology
- I.3 Radical Nanotechnology
- I.4 Bottom–Up/Top–Down Nanotechnology
- References
- 1 Size Matters
- 1.1 The Fundamental Importance of Size
- 1.2 The Magnetic Behavior of Nanoparticles
- 1.3 The Mechanical Properties of Nanostructured Materials
- 1.4 The Chemical Properties of Nanoparticles
- 1.5 Nanoparticles Interacting with Bacteria and Viruses
- Problems
- References
- 2 Nanoparticles and the Environment
- 2.1 Nanoparticles in the Atmosphere
- 2.2 Atmospheric Nanoparticles and Health
- 2.3 Nanoparticles and Clouds
- 2.4 Marine Aerosol
- 2.5 Effect of Cosmic Rays on Atmospheric Aerosol
- 2.6 Nanoparticles in Space
- 2.7 Environmental Applications of Nanoparticles
- Problems
- References
- 3 Carbon Nanostructures
- 3.1 Why Carbon?
- 3.2 Discovery of the First Fullerene – C60
- 3.3 Structural Symmetry of the Closed Fullerenes
- 3.4 Smaller Fullerenes and “Shrink-Wrapping” Atoms
- 3.5 Larger Fullerenes
- 3.6 Electronic Properties of Individual Fullerenes
- 3.7 Materials Produced by Assembling Fullerenes (Fullerites and Fullerides)
- 3.8 Discovery of Carbon Nanotubes
- 3.9 Structure of Single-Wall Carbon Nanotubes (SWNTs)
- 3.10 Electronic Properties of SWNTs
- 3.11 Electronic Transport in Carbon Nanotubes
- 3.12 Field Emission from Carbon Nanotubes
- 3.13 Mechanical Properties of Nanotubes
- 3.14 Thermal Conductivity of Nanotubes
- 3.15 Carbon Nanohorns
- 3.16 Carbon Nanobuds and Pea Pods
- Problems
- References
- 4 Graphene
- 4.1 Background
- 4.2 Electrical Properties of Graphene
- 4.3 Graphene as a Testbed for Relativistic Quantum Effects
- 4.4 Thermal Conductivity of Graphene
- 4.5 Mechanical Strength of Graphene
- 4.6 Superconductivity in Graphene Bilayers
- 4.7 Current Technological Applications of Graphene
- 4.8 Summary
- Problems
- References
- 5 The Nanotechnology Toolkit
- 5.1 Making Nanostructures Using Bottom–Up Methods
- 5.2 Making Nanostructures Using Top–Down Methods
- 5.3 Combining Bottom–up and Top–Down Nanostructures
- 5.4 Imaging, Probing, and Manipulating Nanostructures
- References
- 6 Single-Nanoparticles Devices
- 6.1 Data Storage on Magnetic Nanoparticles
- 6.2 Quantum Dots
- 6.3 Quantum Dot Solar Cells
- 6.4 Nanoparticles as Transistors
- 6.5 Carbon Nano-Electronics
- 6.6 Carbon Nanotube Light Emitters and Detectors
- References
- 7 Hydrosols, Nanobubbles, and Nanoscale Interfaces
- 7.1 Reynolds Number
- 7.2 Brownian Motion
- 7.3 Stability of Hydrosols
- 7.4 Nanobubbles
- 7.5 Nanofluidics
- References
- 8 Magic Beacons and Magic Bullets
- 8.1 Nanoparticles Interacting with Living Organisms
- 8.2 Treatment of Tumors by Hyperthermia
- 8.3 Medical Diagnosis and “Theranostics” using Nanomaterials
- 8.4 Antibacterial and Antiviral Applications of Nanoparticles
- References
- 9 Radical Nanotechnology
- 9.1 Locomotion for Nanobots and Nanofactories
- 9.2 Onboard Processing for Nanomachines
- 9.3 Medical Micro/Nanobots
- 9.4 Molecular Assembly
- References
- 10 Prodding the Cosmic Fabric
- 10.1 Zero-Point Energy of Space
- 10.2 The Casimir Force
- 10.3 The Casimir Force in Micro- and Nanomachines
- 10.4 Controlling the Casimir Force Using Phase-Change Materials
- 10.5 Repulsive Casimir Forces
- References
- Glossary
- Index
- End User License Agreement
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