Synthesis and electronic properties of coalesced graphitic nanocones Article

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Overview

abstract

• Thermal annealing of graphitic conical nanofibers, produced by pyrolysing Pd precursors under an Ar atmosphere at 850-1000 °C, results in the coalescence of adjacent cones. These novel cone-like arrangements exhibit heptagonal and pentagonal carbon rings located in the cauterized rims between adjacent cones. We propose molecular models that resemble such structures and calculate their electronic properties using a self-consistent local approach based on a realistic tight-binding Hamiltonian. The calculations demonstrate that coalesced cones exhibit a conducting behaviour and a local analysis of the density of states (DOS) reveals that curvature is crucial in modifying the electronic structure. © 2005 Elsevier B.V. All rights reserved.

authors

• Dorantes Dávila Jesús Gerardo
• Dresselhaus M.S.
• Endo M.
• Hayashi T.
• Kim Y.A.
• Muñoz-Navia M.
• Terrones H.
• Terrones M.

publication date

• 2005-01-01

funding provided via

• CO2-41464, CO2-42428, PS/CN 02-114  Grant
• Consejo Nacional de Ciencia y Tecnología, CONACYT  Grant
• FIES-98-101-I  Grant
• Instituto Mexicano del Petróleo, IMP: 36365-E, 39517  Grant

published in

• Chemical Physics Letters  Journal

Research

keywords

• Annealing; Coalescence; Electronic properties; Heat treatment; High resolution electron microscopy; Nanostructured materials; Palladium; Pyrolysis; Synthesis (chemical); Transmission electron microscopy; Carbon rings; Density of states (DOS); Graphitic nanocones; Thermal annealing; Graphite

Identity

Digital Object Identifier (DOI)

• 10.1016/j.cplett.2005.03.095

Additional Document Info

start page

• 327

end page

• 332

volume

• 407

issue

• 4-6