Produktdetaljer
Biographical note
Dr Ning Xi is Distinguished Professor of Electrical and Computer Engineering and received his D.Sc. degree in Systems Science and Mathematics from Washington University in St. Louis , Missouri in December, 1993. He received his M.S. degree in computer science from Northeastern University , Boston , Massachusetts , and B.S. degree in electrical engineering from Beijing University of Aeronautics and Astronautics. Currently, he is John D. Ryder Professor of Electrical and Computer Engineering in the Department of Electrical and Computer Engineering at Michigan State University . Dr. Xi received the Best Paper Award in IEEE/RSJ International Conference on Intelligent Robots and Systems in August, 1995. He also received the Best Paper Award in the 1998 Japan-USA Symposium on Flexible Automation. Dr. Xi was awarded the first Early Academic Career Award by the IEEE Robotics and Automation Society in May, 1999. In addition, he is also a recipient of National Science Foundation CAREER Award. His research interests include robotics, manufacturing automation, micro/nano systems, and intelligent control and systems. Dr King W.C. Lai is Assistant Professor in the Department of Mechanical and Biomedical Engineering at City University, Hong Kong. He has over 10 years of research experience in micro/nano manipulation and micro/nano assembly. His main research interests include development of micro/nano sensors using MEMS and nanotechnology; design and fabrication of MEMS/nano systems and devices, optical sensing system and photovoltaics, nanobiotechnology, automation and manipulation of micro/nano scale systems. He has contributed to the research and development of nanomanufacturing technology for various nanodevices. He developed a micro/nano robot and a microinjection system for microassembly and microspotting of nanomaterials such as carbon nanotube, graphene etc. He has also developed apply the systems for the observation and manipulation of different biological samples such as living cells and DNA strands. He has published more than 80 peer-reviewed conference papers, book chapters and high-quality journals in the field of micromanipulation, nanorobotics and MEMS devices
Nano Optoelectronic Sensors and Devices: Nanophotonics from Design to Manufacturing, Second Editioncovers the development of nano-optoelectronic devices by first discussing the fundamental structure of nanodevices and the significance of nanomaterials and nanostructures in photonic devices.
A section is devoted to the discussion of the processes used to manufacture nanodevices in order to meet the challenges and difficulties of design and fabrication using nanomaterials. These include the development of the thermal annealing and packaging process to maintain the stability and reliability of the nanodevices. Other optoelectronic devices, including solar cells, graphene-based optical sensors and devices, nanowire-based infrared detectors, and advances in infrared imaging are also covered.
The materials contained here familiarize the reader with the latest developments in the design and manufacturing of nano-optoelectronic devices, and on the latest techniques in nanomanipulation and nanoassembly. The principles explored here also allow engineers to turn nanomaterials into commercially usable devices.
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Part A: Fabrication and Manufacturing 1. Nanomanufacturing of Nano-Optoelectronic Devices 2. Nanomaterials Processing for Device Manufacturing 3. Design and Generation of Dielectrophoretic Forces for Manipulating Carbon Nanotubes 4. Atomic Force Microscopic-Based Nanorobotic System for Nanoassembly 5. On-Chip Band Gap Engineering of Carbon Nanotubes 6. Packaging Processes for Carbon Nanotube-Based Devices
Part B: Design of Photodetector 7. Carbon Nanotube Schottky Photodiodes 8. Carbon Nanotube Field-Effect Transistor–Based Photodetectors 9. Organic Solar Cells Enhanced by Carbon Nanotubes 10. Indium Antimonide (InSb) Nanowire–Based Photodetectors 11. Development of Optical Sensors by Graphene 12. Design of Nanowire-based Photovoltaic Devices
Part C: Field Enhancement 13. Nanoantennas on Nanowire-Based Optical Sensors 14. Design of Photonic Crystal Waveguides 15. Signal Modulation using Coil Antenna 16. Surface plasmon resonance for optoelectronics
Part D: Applications 17. Carbon Nanotube-Based Infrared Camera Using Compressive Sensing 18. Light field imaging using Compressive Sensing 19. Design and Implementation for Image Reconstruction of Compressive Sensing using Digital Signal Processing
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Explains the engineering aspects of designing, synthesizing, building, and manufacturing nanophotonic devices using efficient nanowire materials and technologies
Explains the engineering aspects of designing, synthesizing, building, and manufacturing nanophotonic devices using efficient nanowire materials and technologies
Discusses opto-electronic nanomaterials and their characterization and properties from an engineering perspective, enabling the commercialization of key emerging technologies
Provides scalable techniques for nanowire structure growth, manipulation, and assembly (i.e. synthesis)
Thoroughly revised, now including increased coverage of nanomaterial characterization, new photonic devices, and nano-manipulation, allowing readers to familiarize themselves with the latest developments in the field
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