Si Incorporation in InP Nanowires Grown by Au-Assisted Molecular Beam Epitaxy | Zendy

Lorenzo Rigutti | Zendy; Andrés de Luna Bugallo | Zendy; Maria Tchernycheva | Zendy; Gwénolé Jacopin | Zendy; F. H. Julien | Zendy; G. É. Cirlin | Zendy; G. Patriarche | Zendy; D. Lucot | Zendy; Laurent Travers | Zendy; JeanChristophe Harmand | Zendy

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Si Incorporation in InP Nanowires Grown by Au-Assisted Molecular Beam Epitaxy

Author(s) -

Lorenzo Rigutti,

Andrés de Luna Bugallo,

Maria Tchernycheva,

Gwénolé Jacopin,

F. H. Julien,

G. É. Cirlin,

G. Patriarche,

D. Lucot,

Laurent Travers,

JeanChristophe Harmand

Publication year - 2009

Publication title -

journal of nanomaterials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.463

H-Index - 66

eISSN - 1687-4129

pISSN - 1687-4110

DOI - 10.1155/2009/435451

Subject(s) - dopant , materials science , nanowire , doping , molecular beam epitaxy , analytical chemistry (journal) , nanotechnology , epitaxy , optoelectronics , chemistry , layer (electronics) , chromatography

We report on the growth, structural characterization, and conductivity studies of Si-doped InP nanowires grown by Au-assisted molecular beam epitaxy. It is shown that Si doping reduces the mean diffusion length of adatoms on the lateral nanowire surface and consequently reduces the nanowire growth rate and promotes lateral growth. A resistivity as low as 5.1±0.3×10−5 Ω⋅cm is measured for highly doped nanowires. Two dopant incorporation mechanisms are discussed: incorporation via catalyst particle and direct incorporation on the nanowire sidewalls. The first mechanism is shown to be less efficient than the second one, resulting in inhomogeneous radial dopant distribution

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