Semiconductor nanodevices : physics, technology and applications / edited by David A. Ritchie.
Material type: BookSeries: Frontiers of nanoscience: v. 20.Publisher: Amsterdam, Netherlands ; Cambridge, MA : Elsevier, [2021]Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 0128220848; 9780128220849.Subject(s): Semiconductors | Nanostructured materials | Semiconductors | Nanostructures | Semi-conducteurs | Nanomat�eriaux | semiconductor | Nanostructured materials | SemiconductorsAdditional physical formats: Print version:: SEMICONDUCTOR NANODEVICES.DDC classification: 620.115 Online resources: ScienceDirect<P>1. Introduction</p> <p><b>Part I: Growth, Fabrication and Characterisation Techniques (including seminal work) </b>2. Semiconductor Growth, MBE, MOCVD 3. Fabrication Techniques Contacts Gates: Wet and Dry Etching; E beam Lithography 4. Microscopy techniques, SEM, TEM, AFM, etc -- Rachel Oliver (Cambridge) 5. Low Temperature Optical Measurements 6. Low Temperature Electrical Measurements 7. Conclusion to Part I</p> <p><b>Part II Recent Research Advances </b>8. Self-assembled Semiconductor Nanowires InAs, Growth Techniques and Applications to Electrical and Optical Devices 9. Quantum Dots -- Single and Entangled Photon Emitters 10. Quantum Dot Lasers 11. Quantum dot solar cells -- Yoshi Okada (U Tokyo) 12. Solution Processed Quantum Dots 13. Electrostatically Defined Structures 1: Quantum Point Contacts 14. Electrostatically Defined Structures 2: Quantum Dots, Thermal Effects 15. Noise Measurements in Semiconductor Nanostructures 16. Single Electron Pumps 17. Single Atom Devices 18. Strong Spin-orbit Interaction Devices 19. Silicon Microelectronics: State of the Art 20. Silicon quantum computing devices 21. Polariton Quantum Fluids in Patterned Microcavities 22. 2D Materials 23. Topological Insulators 24. Conclusion to Part II</p>
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