This up-to-date reference is the most comprehensive summary of the field of nanoscience and its applications. It begins with fundamental properties at the nanoscale and then goes well beyond into the practical aspects of the design, synthesis, and use of nanomaterials in various industries.
This up-to-date reference is the most comprehensive summary of the field of nanoscience and its applications. It begins with fundamental properties at the nanoscale and then goes well beyond into the practical aspects of the design, synthesis, and use of nanomaterials in various industries.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Klaus D. Sattler pursued his undergraduate and master's courses at the University of Karlsruhe in Germany. He received his PhD under the guidance of Professors G. Busch and H.C. Siegmann at the Swiss Federal Institute of Technology (ETH) in Zurich. He was at the University of California, Berkeley, for three years as a Heisenberg fellow, where he initiated the first studies of atomic clusters on surfaces with a scanning tunneling microscope. Dr. Sattler accepted a position as professor of physics at the University of Hawaii, Honolulu, in 1988. In 1994, his group produced the first carbon nanocones. His current work focuses on novel nanomaterials and solar photocatalysis with nanoparticles for the purification of water. He is the editor of the sister references, Carbon Nanomaterials Sourcebook (2016) and Silicon Nanomaterials Sourcebook (2017), as well as Fundamentals of Picoscience (2014). Among his many other accomplishments, Dr. Sattler was awarded the prestigious Walter Schottky Prize from the German Physical Society in 1983. At the University of Hawaii, he teaches courses in general physics, solid state physics, and quantum mechanics.
Inhaltsangabe
1. Nanophotonic Devices Based on Low-Voltage Emission of 2D Electron Gas 2. Polarized Nano-Optics 3. Optical Properties of Semiconductor Nanostructures 4. Hybrid Phase-Change Nanophotonic Circuits e 5. X-Ray Nanophotonics Based on Planar X-Ray Waveguide Resonator 6. Optical Tweezers 7. Metal Nanostructures with Plasmonically Enhanced Raman and Photoluminescence Signals 8. GaN Nanoflowers: Growth to Optoelectronic Device 9. The Future of Nanoelectronics 10. Semimetal Nanoelectronics: Quantum Confinement and Surface Chemistry as Design Tools 11. Neuromorphic Nanoelectronics 12. Single-Electronics: Modeling and Simulation Techniques 13. Single Electron Transport and Possible Quantum Computing in 2D Materials 14. Assembly of Plasmonic Nanoparticles 15. Coulomb Blockade Plasmonic Switch 16. Amplification of Surface Plasmons 17. Magneto-Plasmonics in Purely Ferromagnetic Subwavelength Arrays 18. Cathodoluminescence of Nanoplasmonics 19.Biosensing under Surface Plasmon Resonance Conditions 20. Plasmonic Optical Antenna and its Enhancement to Infrared Photodetectors
1. Nanophotonic Devices Based on Low-Voltage Emission of 2D Electron Gas 2. Polarized Nano-Optics 3. Optical Properties of Semiconductor Nanostructures 4. Hybrid Phase-Change Nanophotonic Circuits e 5. X-Ray Nanophotonics Based on Planar X-Ray Waveguide Resonator 6. Optical Tweezers 7. Metal Nanostructures with Plasmonically Enhanced Raman and Photoluminescence Signals 8. GaN Nanoflowers: Growth to Optoelectronic Device 9. The Future of Nanoelectronics 10. Semimetal Nanoelectronics: Quantum Confinement and Surface Chemistry as Design Tools 11. Neuromorphic Nanoelectronics 12. Single-Electronics: Modeling and Simulation Techniques 13. Single Electron Transport and Possible Quantum Computing in 2D Materials 14. Assembly of Plasmonic Nanoparticles 15. Coulomb Blockade Plasmonic Switch 16. Amplification of Surface Plasmons 17. Magneto-Plasmonics in Purely Ferromagnetic Subwavelength Arrays 18. Cathodoluminescence of Nanoplasmonics 19.Biosensing under Surface Plasmon Resonance Conditions 20. Plasmonic Optical Antenna and its Enhancement to Infrared Photodetectors
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