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Formation of Well-defined Nanocolumns by Ion Tracking Lithography.

Autor: T E FelterR J ContoliniR G MusketP C SearsonJ MacaulayTodos autores
Editorial: Washington, D.C : United States. Dept. of Energy ; Oak Ridge, Tenn. : Distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy, 2003.
Edición/Formato:   Libro-e : Documento : Publicación de conferencia : Publicación gubernamental nacional : Inglés (eng)
Base de datos:WorldCat
Resumen:
Low dimensional systems on the nanometer scale afford a wealth of interesting possibilities including highly anisotropic behavior and quantum effects. Nanocolumns permit electrical and mechanical contact, yet benefit from two confined dimensions. This confinement leads to new optical, mechanical, electrical, chemical, and magnetic properties. We construct nanocolumn arrays with precise definition and independent  Leer más
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Detalles

Tipo de material: Publicación de conferencia, Documento, Publicación gubernamental, Publicación gubernamental nacional, Recurso en Internet
Tipo de documento Recurso internet, Archivo de computadora
Todos autores / colaboradores: T E Felter; R J Contolini; R G Musket; P C Searson; J Macaulay; Lawrence Livermore National Laboratory.; United States. Department of Energy.; United States. Department of Energy. Office of Scientific and Technical Information.
Número OCLC: 316513885
Notas: Published through the Information Bridge: DOE Scientific and Technical Information.
04/12/2003.
"UCRL-JC-150938."
Spring Meeting of the Materials Research Society, San Francisco, CA (US), 04/22/2003--04/25/2003.
Felter, T E; Contolini, R J; Musket, R G; Searson, P C; Macaulay, J.
Descripción: FILE: 9 ; SIZE: 1 MBYTES pages : PDF-
Detalles: Mode of access: World Wide Web.

Resumen:

Low dimensional systems on the nanometer scale afford a wealth of interesting possibilities including highly anisotropic behavior and quantum effects. Nanocolumns permit electrical and mechanical contact, yet benefit from two confined dimensions. This confinement leads to new optical, mechanical, electrical, chemical, and magnetic properties. We construct nanocolumn arrays with precise definition and independent control of diameter, length, orientation, areal density and composition so that geometry can be directly correlated to the quantum physical property of interest. The precision and control are products of the fabrication technique that we use. The process starts with an ion of sufficient energy to ''track'' a dielectric such as a film applied uniformly onto a substrate. The energy loss of the ion alters chemical bonding in the dielectric along the ion's straight trajectory. A suitable etchant quickly dissolves the latent tracks leaving high aspect ratio holes of small diameter ({approx}10nm) penetrating a film as thick as several microns. These small holes are interesting and useful in their own right and can be made to any desired size by continuing the etching process. Moreover, they serve as molds for electrochemical filling. After this electro-deposition, the mold material can be removed leaving the columns firmly attached to the substrate at the desired orientation. A variety of structures can be envisioned with these techniques. As examples, we have created arrays of Ni and of Pt nanocolumns ({approx}60 nm diameter and {approx}600 nm long) oriented perpendicular to the substrate. The high aspect ratio and small diameter of the columns enables easy observation of quantum behavior, namely efficient electron field emission and Fowler Nordheim behavior.

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