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Carbon Nanotube and Graphene Device Physics H. S. Philip Wong, Deji Akinwande
Publisher: Cambridge University Press

He is the co-author (with Deji Akinwande) of the book Carbon Nanotube and Graphene Device Physics. Supervisors Issue Date: 12-Oct-2010. Fujitsu used a first-principles method to calculate the electrical properties of a 1000 atom device based on carbon nanotubes and graphene electrodes. Such an ultrathin array could save space in small microprocessor-based devices. Carbon Nanotube and Graphene Device Physics / H. Cambridge, UK: Cambridge, 2011. Product Description Explaining a properties as well as opening of unsentimental nanotube inclination as well as associated applications, this is a initial rudimentary text upon a subject. Graphene can act as a go-between that allows carbon nanotubes to grow on nearly anything, even diamond. Trions have been observed in a variety of systems, but surprisingly, in view of their rich prospects for device applications and basic research, not in semiconducting carbon nanotubes (CNTs). Abstract: Electronic devices in which the electrons are confined to fewer than three spatial dimensions are an important tool for physics research and future developments in computing technology. Chapters focus on electronic properties, chemical and bimolecular functionalisation, nanotube composites and nanotube-based probes and sensors. Recently discovered carbon nanotubes (1991) and graphene (2004) are intrinsically low-dimensional materials with remarkable electronic properties. Title: Low-dimensional carbon nanotube and graphene devices. Dr Peter Sloan, Lecturer in Physics added: “With the nano-factory, we can also build up bespoke atomic-scale structures one atom at a time to link with the stencilled devices, making our new microscope world-leading. This implosion can't go on forever, though, at least given the laws of physics as we know them. Nazarpour has extensive experience in advanced carbon nanomaterials such as carbon nanotube and graphene, device physics, materials processing and integration. Philip Wong and Deji Akinwande. €�Not only will we make some exciting fundamental physics.” Researchers will also use the new Graphene Centre Laboratory to investigate the extraordinary properties of carbon nanotubes, rolled sheets of graphene some 50,000 times narrower than a human hair. Thermostability, Photoluminescence, and Electrical Properties of Reduced Graphene Oxide–Carbon Nanotube Hybrid Materials 1 Nanjing National Laboratory of Microstructures, Physics Department, Nanjing University, Nanjing 210093, China 2 College of Physics and Technology, Guangxi Normal University, Guilin 541004, China 3 Key Laboratory for The RGO–CNTs therefore have important potential applications in the fields of photonic and electrical devices. Co-authors of the study are Honda senior scientists Rahul Rao and Gugang Chen; Rice graduate student Kaushik Kalaga; Masahiro Ishigami, an assistant professor of physics at the University of Central Florida; and Tony Heinz, the D.M.