Growth Mechanism of Self-Catalyzed Group III−V Nanowires | Zendy

Bernhard Mandl | Zendy; J. Stangl | Zendy; Emelie Hilner | Zendy; Alexei A. Zakharov | Zendy; Karla Hillerich | Zendy; Anil W. Dey | Zendy; Lars Samuelson | Zendy; G. Bauer | Zendy; Knut Deppert | Zendy; Anders Mikkelsen | Zendy

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Growth Mechanism of Self-Catalyzed Group III−V Nanowires

Author(s) -

Bernhard Mandl,

J. Stangl,

Emelie Hilner,

Alexei A. Zakharov,

Karla Hillerich,

Anil W. Dey,

Lars Samuelson,

G. Bauer,

Knut Deppert,

Anders Mikkelsen

Publication year - 2010

Publication title -

nano letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 4.853

H-Index - 488

eISSN - 1530-6992

pISSN - 1530-6984

DOI - 10.1021/nl1022699

Subject(s) - nucleation , epitaxy , nanowire , nanotechnology , materials science , impurity , catalysis , vapor–liquid–solid method , silicon , chemical physics , chemical engineering , metal , chemistry , optoelectronics , layer (electronics) , organic chemistry , metallurgy , engineering

Group III-V nanowires offer the exciting possibility of epitaxial growth on a wide variety of substrates, most importantly silicon. To ensure compatibility with Si technology, catalyst-free growth schemes are of particular relevance, to avoid impurities from the catalysts. While this type of growth is well-documented and some aspects are described, no detailed understanding of the nucleation and the growth mechanism has been developed. By combining a series of growth experiments using metal-organic vapor phase epitaxy, as well as detailed in situ surface imaging and spectroscopy, we gain deeper insight into nucleation and growth of self-seeded III-V nanowires. By this mechanism most work available in literature concerning this field can be described.

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