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Patterning Surfaces by Self-Organized Growth

Kern, Klaus

Abstract Much effort has been devoted to create semiconductor and metal nanostructures at surfaces. Their controlled fabrication, in particular the creation of lateral order, however, remains an experimental challenge. In this contribution we discuss the fabrication of nanostructures via self-organized growth at surfaces. Advantages and limitations of diffusion controlled molecular beam epitaxy are discussed and novel routes for the fabrication of ordered nanostructures are presented.

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Patterning Surfaces by Self-Organized Growth

Kern, Klaus

Abstract Much effort has been devoted to create semiconductor and metal nanostructures at surfaces. Their controlled fabrication, in particular the creation of lateral order, however, remains an experimental challenge. In this contribution we discuss the fabrication of nanostructures via self-organized growth at surfaces. Advantages and limitations of diffusion controlled molecular beam epitaxy are discussed and novel routes for the fabrication of ordered nanostructures are presented.

Patterning Surfaces by Self-Organized Growth

Kern, Klaus

Abstract Much effort has been devoted to create semiconductor and metal nanostructures at surfaces. Their controlled fabrication, in particular the creation of lateral order, however, remains an experimental challenge. In this contribution we discuss the fabrication of nanostructures via self-organized growth at surfaces. Advantages and limitations of diffusion controlled molecular beam epitaxy are discussed and novel routes for the fabrication of ordered nanostructures are presented.

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Title:

Patterning Surfaces by Self-Organized Growth

Contributors:

Kern, Klaus (author)

Published in:

Atomistic Aspects of Epitaxial Growth ; 207-218

NATO Science Series ; 65

Publication date:

2002-01-01

Size:

12 pages

ISBN:

978-94-010-0391-9 , 978-1-4020-0675-3

ISSN:

DOI:

https://doi.org/10.1007/978-94-010-0391-9_18

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Scanning Tunneling Microscope , Scanning Tunneling Microscope Image , Dislocation Network , Adsorption Geometry , Island Density Physics , Physics, general , Electronics and Microelectronics, Instrumentation , Surfaces and Interfaces, Thin Films , Characterization and Evaluation of Materials , Physical Chemistry , Condensed Matter Physics

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