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

Carbon Nanotube and Graphene Device Physics 425 pages | Aug 31 2010 |ISBN: 0521519055| PDF | 5.5 Mb Explaining the properties and performance of practical nanotube devices and related appli. In recent years, significant progress has been made in understanding device physics and in identifying potential applications of carbon-based electronics. In our Special Topic on Graphene, the paper "Peculiar width dependence of the electronic properties of carbon nanoribbons" (Phys. Researchers from Rice University developed a method of growing seamless carbon nanotubes on graphene, with a high surface area and electric conductivity. 180] at room temperature, tunable band-gap (for few-layer graphene), high chemical and mechanical stability, low electrical noise, high thermal conductivity, and biocompatibility, have led it to be used in many advanced devices ranging from ultra-capacitors to spintronic devices [181–186]. Besides graphene, Lau studies nanowires and carbon nanotubes. Now researchers at Aalto University in Finland, the A.M. The chicken wire represents the sheet of graphene from which the nanotube is cut. The project focuses on the catalytic chemical vapour deposition (CVD) and device integration of graphene and carbon nanotubes. Her research has helped physicists gain fundamental understanding of how atoms and electrons behave when they are ruled by quantum mechanics. Philip Wong, Deji Akinwande - Carbon Nan. These electronic properties are amazingly rich in comparison with those of carbon nanotubes. Philip Wong, Deji Akinwande - Carbon Nanotube and Graphene Device PhysicsPublished: 2011-02-14 | ISBN: 0521519055 | PDF | 264 pages | 3 MBH.-S. Graphene, a 2D carbon nanomaterial with a honeycomb-like structure, has been the subject of a considerable interest after being the subject of the 2010 Nobel Prize for Physics. I have suggested that the combinations of nanoribbons will lead to further interesting physics. Graphene has been holding the spotlight for so long in nanomaterial research now that we are beginning to forget that carbon nanotubes were once the rock star of nanomaterials for a post-silicon world. He's the author of a forthcoming work, Physics of Carbon Nanotube Devices, which could become the definitive text on the topic. Third, my work suggests applications of nanoribbon to future nanoelectronic devices.