Carbon Nanotube and Graphene Device Physics

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

Tweet Graphene and carbon nanotubes could improve the electronics used in computers and mobile phones, reveals new research from the University of Gothenburg, Sweden. It's an entirely new material, with new physics that could lead to new practical devices and applications. Philip Wong, Deji Akinwande - Carbon Nan. Book: Carbon Nanotube and Graphene Device Physics Author: H.-S. He's the author of a forthcoming work, Physics of Carbon Nanotube Devices, which could become the definitive text on the topic. Spooky action put to order: Physicists classify different types of 'entanglement'. The researchers believe the technique could also be used to connect multi-layered graphene to metal contacts, though their published research has so far focused on carbon nanotubes. Fujitsu used a first-principles method to calculate the electrical properties of a 1000 atom device based on carbon nanotubes and graphene electrodes. A question that Labels: carbon nanotubes, electronics, graphene, nanowire, nems, physics, science. The chicken wire represents the sheet of graphene from which the nanotube is cut. Nazarpour has extensive experience in advanced carbon nanomaterials such as carbon nanotube and graphene, device physics, materials processing and integration. Language: English ISBN10: 0521519055. 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. Until now, however, resistance at the connections between the carbon structures and conventional silicon electronics has been too high to make the devices practical. Philip Wong, Deji Akinwande - Carbon Nanotube and Graphene Device PhysicsPublished: 2011-02-14 | ISBN: 0521519055 | PDF | 264 pages | 3 MBH.-S. Carbon nanotubes On the contrary, even the simplest device demonstrates the entire range of functionality, all the way from cooling up to an S-shaped I-V characteristic. Carbon Nanotube and Graphene Device Physics. Such an ultrathin array could save space in small microprocessor-based devices. Graphene can act as a go-between that allows carbon nanotubes to grow on nearly anything, even diamond.