Carbon Nanotube and Graphene Device Physics pdf download
Par nash mary le dimanche, juin 14 2015, 11:46 - Lien permanent
Carbon Nanotube and Graphene Device Physics by H. S. Philip Wong, Deji Akinwande
Carbon Nanotube and Graphene Device Physics H. S. Philip Wong, Deji Akinwande ebook
Publisher: Cambridge University Press
Page: 263
ISBN: 0521519055, 9780521519052
Format: pdf
Tweet Graphene and carbon nanotubes could improve the electronics used in computers and mobile phones, reveals new research from the University of Gothenburg, Sweden. Graphene can act as a go-between that allows carbon nanotubes to grow on nearly anything, even diamond. Physicists from Umeå University and Finland have found an efficient way to synthesize graphene nanoribbons directly inside of single-walled carbon nanotubes. Eur J Chem Physics and Physical Chemistry 2004, 5:1084-1104. A question that Labels: carbon nanotubes, electronics, graphene, nanowire, nems, physics, science. However, most of the This study was conducted by research teams based in the Department of Physics and Astronomy at Seoul National University and from the Samsung Advanced Institute of Technology, South Korea. I have suggested that the combinations of nanoribbons will lead to further interesting physics. Third, my work suggests applications of nanoribbon to future nanoelectronic devices. Metallic NW-graphene hybrid nanostructures point towards highly efficient and flexible field emission devices. 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. Several studies are particularly devoted to nanostructure based on DNA and other nanomaterials such as gold nanoparticles [14,15], carbon nanotubes [16,17], graphene [18] and so on [19,20]. 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. Such an ultrathin array could save space in small microprocessor-based devices. In our Special Topic on Graphene, the paper "Peculiar width dependence of the electronic properties of carbon nanoribbons" (Phys. Recently, nitrogen-doped carbon nanotubes and ZnO NWs have been grown on reduced graphene. These electronic properties are amazingly rich in comparison with those of carbon nanotubes. For example, this pH induced controllable assembly of SWCNTs can offer a potential method to desired novel pH-sensitive multifunctional architectures and/or biosensing 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.