Nonthermal plasma synthesis of size-controlled, monodisperse, freestanding germanium nanocrystals

Ryan Gresback; Zachary Holman; Uwe Kortshagen

doi:10.1063/1.2778356

Nonthermal plasma synthesis of size-controlled, monodisperse, freestanding germanium nanocrystals

Ryan Gresback, Zachary Holman, Uwe Kortshagen

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

110 Scopus citations

Abstract

Germanium nanocrystals may be of interest for a variety of electronic and optoelectronic applications including photovoltaics, primarily due to the tunability of their band gap from the infrared into the visible range of the spectrum. This letter discusses the synthesis of monodisperse germanium nanocrystals via a nonthermal plasma approach which allows for precise control of the nanocrystal size. Germanium crystals are synthesized from germanium tetrachloride and hydrogen entrained in an argon background gas. The crystal size can be varied between 4 and 50 nm by changing the residence times of crystals in the plasma between ∼30 and 440 ms. Adjusting the plasma power enables one to synthesize fully amorphous or fully crystalline particles with otherwise similar properties.

Original language	English (US)
Article number	093119
Journal	Applied Physics Letters
Volume	91
Issue number	9
DOIs	https://doi.org/10.1063/1.2778356
State	Published - 2007
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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10.1063/1.2778356

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title = "Nonthermal plasma synthesis of size-controlled, monodisperse, freestanding germanium nanocrystals",

abstract = "Germanium nanocrystals may be of interest for a variety of electronic and optoelectronic applications including photovoltaics, primarily due to the tunability of their band gap from the infrared into the visible range of the spectrum. This letter discusses the synthesis of monodisperse germanium nanocrystals via a nonthermal plasma approach which allows for precise control of the nanocrystal size. Germanium crystals are synthesized from germanium tetrachloride and hydrogen entrained in an argon background gas. The crystal size can be varied between 4 and 50 nm by changing the residence times of crystals in the plasma between ∼30 and 440 ms. Adjusting the plasma power enables one to synthesize fully amorphous or fully crystalline particles with otherwise similar properties.",

author = "Ryan Gresback and Zachary Holman and Uwe Kortshagen",

note = "Funding Information: This work was supported primarily by the MRSEC Program of the National Science Foundation under Award No. DMR-0212302 and by the Initiative for Renewable Energy and the Environment under Grant No. LG-C5-2005. Partial support was also provided by NSF-IGERT Grant No. DGE-0114372.",

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AU - Gresback, Ryan

AU - Holman, Zachary

AU - Kortshagen, Uwe

N1 - Funding Information: This work was supported primarily by the MRSEC Program of the National Science Foundation under Award No. DMR-0212302 and by the Initiative for Renewable Energy and the Environment under Grant No. LG-C5-2005. Partial support was also provided by NSF-IGERT Grant No. DGE-0114372.

PY - 2007

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N2 - Germanium nanocrystals may be of interest for a variety of electronic and optoelectronic applications including photovoltaics, primarily due to the tunability of their band gap from the infrared into the visible range of the spectrum. This letter discusses the synthesis of monodisperse germanium nanocrystals via a nonthermal plasma approach which allows for precise control of the nanocrystal size. Germanium crystals are synthesized from germanium tetrachloride and hydrogen entrained in an argon background gas. The crystal size can be varied between 4 and 50 nm by changing the residence times of crystals in the plasma between ∼30 and 440 ms. Adjusting the plasma power enables one to synthesize fully amorphous or fully crystalline particles with otherwise similar properties.

AB - Germanium nanocrystals may be of interest for a variety of electronic and optoelectronic applications including photovoltaics, primarily due to the tunability of their band gap from the infrared into the visible range of the spectrum. This letter discusses the synthesis of monodisperse germanium nanocrystals via a nonthermal plasma approach which allows for precise control of the nanocrystal size. Germanium crystals are synthesized from germanium tetrachloride and hydrogen entrained in an argon background gas. The crystal size can be varied between 4 and 50 nm by changing the residence times of crystals in the plasma between ∼30 and 440 ms. Adjusting the plasma power enables one to synthesize fully amorphous or fully crystalline particles with otherwise similar properties.

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Nonthermal plasma synthesis of size-controlled, monodisperse, freestanding germanium nanocrystals

Abstract

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