Synthesis and magnetic properties of manganese-doped GaP nanowires

Doo Suk Han; Seung Yong Bae; Hee Won Seo; Young Joo Kang; Jeunghee Park; Gangho Lee; Jae Pyoung Ahn; Soonkyu Kim; Joonyeon Chang

doi:10.1021/jp050655s

Synthesis and magnetic properties of manganese-doped GaP nanowires

Doo Suk Han, Seung Yong Bae, Hee Won Seo, Young Joo Kang, Jeunghee Park, Gangho Lee, Jae Pyoung Ahn, Soonkyu Kim, Joonyeon Chang

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33 Scopus citations

Abstract

We characterized the structure and magnetic properties of Mn-incorporated GaP nanowires synthesized by thermal evaporation of GaP/Mn powders. The nanowires consist of twin-crystalline zinc blende GaP grown with the [111] direction and doped with about 1 at. % Mn. They are often sheathed with the bumpy amorphous outerlayers containing high concentrations of Mn and O. The ferromagnetic hysteresis curves at 5 and 300 K and temperature-dependent magnetization provide evidence for the ferromagnetism with the Curie temperature higher than room temperature. Magnetic properties of individual nanowires have been measured, showing a large negative magnetoresistance equal to about -5% at 5 K. We suggest that the Mn doping of GaP nanowires would form a dilute magnetic semiconductor.

Original language	English
Pages (from-to)	9311-9316
Number of pages	6
Journal	Journal of Physical Chemistry B
Volume	109
Issue number	19
DOIs	https://doi.org/10.1021/jp050655s
State	Published - 19 May 2005

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title = "Synthesis and magnetic properties of manganese-doped GaP nanowires",

abstract = "We characterized the structure and magnetic properties of Mn-incorporated GaP nanowires synthesized by thermal evaporation of GaP/Mn powders. The nanowires consist of twin-crystalline zinc blende GaP grown with the [111] direction and doped with about 1 at. % Mn. They are often sheathed with the bumpy amorphous outerlayers containing high concentrations of Mn and O. The ferromagnetic hysteresis curves at 5 and 300 K and temperature-dependent magnetization provide evidence for the ferromagnetism with the Curie temperature higher than room temperature. Magnetic properties of individual nanowires have been measured, showing a large negative magnetoresistance equal to about -5% at 5 K. We suggest that the Mn doping of GaP nanowires would form a dilute magnetic semiconductor.",

author = "Han, {Doo Suk} and Bae, {Seung Yong} and Seo, {Hee Won} and Kang, {Young Joo} and Jeunghee Park and Gangho Lee and Ahn, {Jae Pyoung} and Soonkyu Kim and Joonyeon Chang",

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T1 - Synthesis and magnetic properties of manganese-doped GaP nanowires

AU - Han, Doo Suk

AU - Bae, Seung Yong

AU - Seo, Hee Won

AU - Kang, Young Joo

AU - Park, Jeunghee

AU - Lee, Gangho

AU - Ahn, Jae Pyoung

AU - Kim, Soonkyu

AU - Chang, Joonyeon

PY - 2005/5/19

Y1 - 2005/5/19

N2 - We characterized the structure and magnetic properties of Mn-incorporated GaP nanowires synthesized by thermal evaporation of GaP/Mn powders. The nanowires consist of twin-crystalline zinc blende GaP grown with the [111] direction and doped with about 1 at. % Mn. They are often sheathed with the bumpy amorphous outerlayers containing high concentrations of Mn and O. The ferromagnetic hysteresis curves at 5 and 300 K and temperature-dependent magnetization provide evidence for the ferromagnetism with the Curie temperature higher than room temperature. Magnetic properties of individual nanowires have been measured, showing a large negative magnetoresistance equal to about -5% at 5 K. We suggest that the Mn doping of GaP nanowires would form a dilute magnetic semiconductor.

AB - We characterized the structure and magnetic properties of Mn-incorporated GaP nanowires synthesized by thermal evaporation of GaP/Mn powders. The nanowires consist of twin-crystalline zinc blende GaP grown with the [111] direction and doped with about 1 at. % Mn. They are often sheathed with the bumpy amorphous outerlayers containing high concentrations of Mn and O. The ferromagnetic hysteresis curves at 5 and 300 K and temperature-dependent magnetization provide evidence for the ferromagnetism with the Curie temperature higher than room temperature. Magnetic properties of individual nanowires have been measured, showing a large negative magnetoresistance equal to about -5% at 5 K. We suggest that the Mn doping of GaP nanowires would form a dilute magnetic semiconductor.

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U2 - 10.1021/jp050655s

DO - 10.1021/jp050655s

M3 - Article

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SP - 9311

EP - 9316

JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

IS - 19

ER -

Synthesis and magnetic properties of manganese-doped GaP nanowires

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