Organic van der Waals Epitaxy versus Templated Growth by Organic–Organic Heteroepitaxy

Clemens Peter Simbrunner; Helmut Sitter

doi:10.1016/B978-0-444-63304-0.00011-1

Organic van der Waals Epitaxy versus Templated Growth by Organic–Organic Heteroepitaxy

Clemens Peter Simbrunner, Helmut Sitter

Department of Solid State Physics

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

During the last years, epitaxially grown self-assembled organic nanostructures have been gaining increasing interest due to their high potential for the implementation within optoelectronic devices. In the first part of the chapter, the influence of substrate surface symmetry on the formation of organic crystallites should be discussed. It is demonstrated that the obtained crystal orientations and morphologies result from a complex interplay between various parameters, e.g., substrate surface symmetry, molecular adsorption, crystal structure and crystal-contact plane. Consequently, a precise control on the molecular adsorption geometry and crystal contact plane represents a fundamental key parameter for the fabrication of organic device structures. The second part deals with the potential of organic–organic heteroepitaxy for templated growth. In that sense, it is described how organic–organic interfaces can be effectively used to gain control on the molecular adsorption geometry.

Original language	English
Title of host publication	Thin Films and Epitaxy
Pages	483–508
Number of pages	26
Volume	3A
DOIs	https://doi.org/10.1016/B978-0-444-63304-0.00011-1
Publication status	Published - 2015

Publication series

Name	Handbook of Crystal Growth: Thin Films and Epitaxy (Second Edition)

Fields of science

210006 Nanotechnology
103 Physics, Astronomy
103011 Semiconductor physics
103018 Materials physics
202032 Photovoltaics
103009 Solid state physics
103017 Magnetism

JKU Focus areas

Engineering and Natural Sciences (in general)

Access to Document

10.1016/B978-0-444-63304-0.00011-1

Cite this

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title = "Organic van der Waals Epitaxy versus Templated Growth by Organic–Organic Heteroepitaxy",

abstract = "During the last years, epitaxially grown self-assembled organic nanostructures have been gaining increasing interest due to their high potential for the implementation within optoelectronic devices. In the first part of the chapter, the influence of substrate surface symmetry on the formation of organic crystallites should be discussed. It is demonstrated that the obtained crystal orientations and morphologies result from a complex interplay between various parameters, e.g., substrate surface symmetry, molecular adsorption, crystal structure and crystal-contact plane. Consequently, a precise control on the molecular adsorption geometry and crystal contact plane represents a fundamental key parameter for the fabrication of organic device structures. The second part deals with the potential of organic–organic heteroepitaxy for templated growth. In that sense, it is described how organic–organic interfaces can be effectively used to gain control on the molecular adsorption geometry.",

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T1 - Organic van der Waals Epitaxy versus Templated Growth by Organic–Organic Heteroepitaxy

AU - Simbrunner, Clemens Peter

AU - Sitter, Helmut

PY - 2015

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N2 - During the last years, epitaxially grown self-assembled organic nanostructures have been gaining increasing interest due to their high potential for the implementation within optoelectronic devices. In the first part of the chapter, the influence of substrate surface symmetry on the formation of organic crystallites should be discussed. It is demonstrated that the obtained crystal orientations and morphologies result from a complex interplay between various parameters, e.g., substrate surface symmetry, molecular adsorption, crystal structure and crystal-contact plane. Consequently, a precise control on the molecular adsorption geometry and crystal contact plane represents a fundamental key parameter for the fabrication of organic device structures. The second part deals with the potential of organic–organic heteroepitaxy for templated growth. In that sense, it is described how organic–organic interfaces can be effectively used to gain control on the molecular adsorption geometry.

AB - During the last years, epitaxially grown self-assembled organic nanostructures have been gaining increasing interest due to their high potential for the implementation within optoelectronic devices. In the first part of the chapter, the influence of substrate surface symmetry on the formation of organic crystallites should be discussed. It is demonstrated that the obtained crystal orientations and morphologies result from a complex interplay between various parameters, e.g., substrate surface symmetry, molecular adsorption, crystal structure and crystal-contact plane. Consequently, a precise control on the molecular adsorption geometry and crystal contact plane represents a fundamental key parameter for the fabrication of organic device structures. The second part deals with the potential of organic–organic heteroepitaxy for templated growth. In that sense, it is described how organic–organic interfaces can be effectively used to gain control on the molecular adsorption geometry.

U2 - 10.1016/B978-0-444-63304-0.00011-1

DO - 10.1016/B978-0-444-63304-0.00011-1

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VL - 3A

T3 - Handbook of Crystal Growth: Thin Films and Epitaxy (Second Edition)

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BT - Thin Films and Epitaxy

ER -