Abstract On the basis of realistic tight-binding band-structure calculations, we predict that carbon microtubules exhibit striking variations in electronic transport, from metallic to semiconducting with narrow and moderate band gaps, depending on the diameter of the tubule and on the degree of helical arrangement of the carbon hexagons. Carbon Nanotubes - A Time Line. A Word of Caution: Selecting the key events and publications is a field as hot as that of Carbon Nanotubes in an objective way is an impossible task. The following is a first iteration of my subjective opinion regarding the key events and publications. Helical microtubules of graphitic carbon. New one-dimensional conductors: Graphitic microtubules. Phys. Rev. Full text views reflects the number of PDF downloads, PDFs sent to Google Drive, Dropbox and Kindle and HTML full text views. Total number of HTML views: loisirs-moniq.com: Dane J. K. Sheppard, L. P. Felipe Chibante.

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PDF | On the basis of realistic tight-binding band-structure calculations, we predict that carbon microtubules exhibit striking variations in electronic transport, from metallic to semiconducting. Abstract On the basis of realistic tight-binding band-structure calculations, we predict that carbon microtubules exhibit striking variations in electronic transport, from metallic to semiconducting with narrow and moderate band gaps, depending on the diameter of the tubule and on the degree of helical arrangement of the carbon hexagons. Created Date: 4/7/ AM. Hamada, N., Sawada, S. and Oshiyama, A. () New One-Dimensional Conductors Graphitic Microtubules. Physical Review Letters, 68, We examined the graphene and carbon nanotubes in 5 groups according to their structural and electronic properties by using ab initio density functional theory: zigzag (metallic and semiconducting), chiral (metallic and semiconducting), and armchair (metallic). We studied the structural and electronic properties of the 3D supercell graphene and isolated loisirs-moniq.com by: 1. Helical microtubules of graphitic carbon. New one-dimensional conductors: Graphitic microtubules. Phys. Rev. Full text views reflects the number of PDF downloads, PDFs sent to Google Drive, Dropbox and Kindle and HTML full text views. Total number of HTML views: loisirs-moniq.com: Dane J. K. Sheppard, L. P. Felipe Chibante. Carbon Nanotubes - A Time Line. A Word of Caution: Selecting the key events and publications is a field as hot as that of Carbon Nanotubes in an objective way is an impossible task. The following is a first iteration of my subjective opinion regarding the key events and publications. A graphite filament which has carbon as a basic structural unit and which have a tubular shape being formed with a helical structure with the carbon hexagons as a main structure and with an outer diameter of 30 nm or less. The tubular lattices a 1 to a 3 are a multiple structure and the interval between inner and outer adjacent tubules is about nm, which is similar to the interval between Cited by: This chapter briefly reviews the electronic properties of single-wall carbon nanotubes as described by the π-electron tight-binding approximation. The Landauer formalism is introduced next and applied to the study of quantum transport in carbon loisirs-moniq.com by: 1. Nanotubes synthesized hollow carbon molecules and determined their crystal structure for the first time in the soot of arc discharge at NEC, by Japanese researcher Sumio Iijima.; August — Nanotubes discovered in CVD by Al Harrington and Tom Maganas of Maganas Industries, leading to development of a method to synthesize monomolecular thin film nanotube coatings.New one-dimensional conductors: Graphitic microtubules. Article (PDF Available) in Physical Review Letters 68(10) · April New One-Dimensional. Conductors: Graphitic Microtubules. Noriaki Hamada,. ' Shin-ichi Sawada, ' and Atsushi Oshiyama. "'Fundamenta/. On the basis of realistic tight-binding band-structure calculations, we predict that carbon microtubules exhibit striking variations in electronic. [] C. L. Kane and M. P. A. Fisher, “Transport in a Single Channel Luttinger A . Oshiyama, “New one-dimensional conductors: graphitic microtubules,” Phys. Online Version: http:// loisirs-moniq.com [] L.D. Landau. 1. 2. 5. 6. http:// loisirs-moniq.com publications/loisirs-moniq.com (dead link). 3. S.; Oshiyama, A. New one-dimensional conductors—Graphitic microtubules. New one-dimensional conductors: graphitic microtubules. N Hamada, S Sawada, A Oshiyama. Physical review letters 68 (10), , , XXVI(1), 88–95 (). loisirs-moniq.com loisirs-moniq.com (3), 12–17; cited in loisirs-moniq.com wiki/Carbon nanotube S. Iijima, Helical microtubes of graphitic carbon. . Hamada, S. Sawada, A. Oshiyama, New one-dimensional conductors. -graphitic microtubules. Phys. S. Iijima, Helical microtubules of Graphitic Carbon. Hamada, S. Sawada, and A. Oshiyama, New One-Dimensional Conductors: Graphitic Microtubules, Phys. Semiconducting single-walled carbon nanotubes are direct-gap materials A. Oshiyama: New one-dimensional conductors: Graphitic microtubules, Phys. Rev. single-walled carbon nanotubes charged deformation analytical solutions A. New one-dimensional conductors: graphitic microtubules. Phys. -

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