Enhanced nickel-seeded synthesis of germanium nanowires

Xiaotang Lu; Justin T. Harris; Julián E. Villarreal; Aaron M. Chockla; Brian A. Korgel

doi:10.1021/cm401047w

Enhanced nickel-seeded synthesis of germanium nanowires

Xiaotang Lu, Justin T. Harris, Julián E. Villarreal, Aaron M. Chockla, Brian A. Korgel

Research output: Contribution to journal › Article › peer-review

Abstract

Germanium (Ge) nanowires can be grown using either gold (Au) or nickel (Ni) seeds in a supercritical solvent; however, the quality and yield of the nanowires is much higher using Au seeds and diphenyl germane (DPG) as a reactant under typical reaction conditions. We find that the addition of monophenylsilane (MPS) dramatically improves the yield and quality of Ni-seeded Ge nanowires, producing straight nanowires with relatively uniform diameter and nearly 100% conversion of DPG to Ge. MPS participates in the phenyl redistribution reaction of DPG and serves as a phenyl sink that speeds DPG decomposition and increases the conversion to Ge to nearly 100%. MPS addition to Au-seeded nanowire reactions also increases the DPG conversion to Ge to nearly 100% and improves the nanowire quality at higher growth temperature.

Original language	English (US)
Pages (from-to)	2172-2177
Number of pages	6
Journal	Chemistry of Materials
Volume	25
Issue number	10
DOIs	https://doi.org/10.1021/cm401047w
State	Published - May 28 2013
Externally published	Yes

Keywords

colloid chemistry
germanes
germanium
nanowires
SFLS
SFSS
silanes

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering
Materials Chemistry

Online availability

10.1021/cm401047w

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title = "Enhanced nickel-seeded synthesis of germanium nanowires",

abstract = "Germanium (Ge) nanowires can be grown using either gold (Au) or nickel (Ni) seeds in a supercritical solvent; however, the quality and yield of the nanowires is much higher using Au seeds and diphenyl germane (DPG) as a reactant under typical reaction conditions. We find that the addition of monophenylsilane (MPS) dramatically improves the yield and quality of Ni-seeded Ge nanowires, producing straight nanowires with relatively uniform diameter and nearly 100% conversion of DPG to Ge. MPS participates in the phenyl redistribution reaction of DPG and serves as a phenyl sink that speeds DPG decomposition and increases the conversion to Ge to nearly 100%. MPS addition to Au-seeded nanowire reactions also increases the DPG conversion to Ge to nearly 100% and improves the nanowire quality at higher growth temperature.",

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author = "Xiaotang Lu and Harris, {Justin T.} and Villarreal, {Juli{\'a}n E.} and Chockla, {Aaron M.} and Korgel, {Brian A.}",

year = "2013",

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doi = "10.1021/cm401047w",

language = "English (US)",

volume = "25",

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journal = "Chemistry of Materials",

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T1 - Enhanced nickel-seeded synthesis of germanium nanowires

AU - Lu, Xiaotang

AU - Harris, Justin T.

AU - Villarreal, Julián E.

AU - Chockla, Aaron M.

AU - Korgel, Brian A.

PY - 2013/5/28

Y1 - 2013/5/28

N2 - Germanium (Ge) nanowires can be grown using either gold (Au) or nickel (Ni) seeds in a supercritical solvent; however, the quality and yield of the nanowires is much higher using Au seeds and diphenyl germane (DPG) as a reactant under typical reaction conditions. We find that the addition of monophenylsilane (MPS) dramatically improves the yield and quality of Ni-seeded Ge nanowires, producing straight nanowires with relatively uniform diameter and nearly 100% conversion of DPG to Ge. MPS participates in the phenyl redistribution reaction of DPG and serves as a phenyl sink that speeds DPG decomposition and increases the conversion to Ge to nearly 100%. MPS addition to Au-seeded nanowire reactions also increases the DPG conversion to Ge to nearly 100% and improves the nanowire quality at higher growth temperature.

AB - Germanium (Ge) nanowires can be grown using either gold (Au) or nickel (Ni) seeds in a supercritical solvent; however, the quality and yield of the nanowires is much higher using Au seeds and diphenyl germane (DPG) as a reactant under typical reaction conditions. We find that the addition of monophenylsilane (MPS) dramatically improves the yield and quality of Ni-seeded Ge nanowires, producing straight nanowires with relatively uniform diameter and nearly 100% conversion of DPG to Ge. MPS participates in the phenyl redistribution reaction of DPG and serves as a phenyl sink that speeds DPG decomposition and increases the conversion to Ge to nearly 100%. MPS addition to Au-seeded nanowire reactions also increases the DPG conversion to Ge to nearly 100% and improves the nanowire quality at higher growth temperature.

KW - colloid chemistry

KW - germanes

KW - germanium

KW - nanowires

KW - SFLS

KW - SFSS

KW - silanes

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Enhanced nickel-seeded synthesis of germanium nanowires

Abstract

Keywords

ASJC Scopus subject areas

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