Structure and stimulated emission of ZnSe nanoribbons grown by thermal evaporation

Feifei Wang; Zhihua Zhang; Ruibin Liu; Xiao Wang; Xing Zhu; Anlian Pan; Bingsuo Zou

doi:10.1088/0957-4484/18/30/305705

Structure and stimulated emission of ZnSe nanoribbons grown by thermal evaporation

Feifei Wang, Zhihua Zhang, Ruibin Liu, Xiao Wang, Xing Zhu, Anlian Pan, Bingsuo Zou^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

32 引用（Scopus）

摘要

Zinc selenide nanoribbons were synthesized on silicon wafers by simple thermal evaporation of high purity ZnSe powder. The x-ray diffraction pattern indicates that all diffraction peaks can be attributed to the zinc-blende structured ZnSe. The selected-area electron diffraction, transmission electron microscopy and Raman spectroscopy also show the typical structure of highly crystalline zinc-blende. The stimulated emission of these ZnSe nanoribbons can be observed under a nanosecond laser pulse excitation at a threshold of about 200 kW cm^-2. These ZnSe nanoribbons with more structural defects, which were made from a low purity source, only show an emission band at about 610 nm in the photoluminescence spectrum. Furthermore, experiments show that both types of ZnSe nanoribbons show good waveguide properties.

源语言	英语
文章编号	305705
期刊	Nanotechnology
卷	18
期	30
DOI	https://doi.org/10.1088/0957-4484/18/30/305705
出版状态	已出版 - 8 8月 2007
已对外发布	是

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abstract = "Zinc selenide nanoribbons were synthesized on silicon wafers by simple thermal evaporation of high purity ZnSe powder. The x-ray diffraction pattern indicates that all diffraction peaks can be attributed to the zinc-blende structured ZnSe. The selected-area electron diffraction, transmission electron microscopy and Raman spectroscopy also show the typical structure of highly crystalline zinc-blende. The stimulated emission of these ZnSe nanoribbons can be observed under a nanosecond laser pulse excitation at a threshold of about 200 kW cm-2. These ZnSe nanoribbons with more structural defects, which were made from a low purity source, only show an emission band at about 610 nm in the photoluminescence spectrum. Furthermore, experiments show that both types of ZnSe nanoribbons show good waveguide properties.",

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AU - Wang, Feifei

AU - Zhang, Zhihua

AU - Liu, Ruibin

AU - Wang, Xiao

AU - Zhu, Xing

AU - Pan, Anlian

AU - Zou, Bingsuo

PY - 2007/8/8

Y1 - 2007/8/8

N2 - Zinc selenide nanoribbons were synthesized on silicon wafers by simple thermal evaporation of high purity ZnSe powder. The x-ray diffraction pattern indicates that all diffraction peaks can be attributed to the zinc-blende structured ZnSe. The selected-area electron diffraction, transmission electron microscopy and Raman spectroscopy also show the typical structure of highly crystalline zinc-blende. The stimulated emission of these ZnSe nanoribbons can be observed under a nanosecond laser pulse excitation at a threshold of about 200 kW cm-2. These ZnSe nanoribbons with more structural defects, which were made from a low purity source, only show an emission band at about 610 nm in the photoluminescence spectrum. Furthermore, experiments show that both types of ZnSe nanoribbons show good waveguide properties.

AB - Zinc selenide nanoribbons were synthesized on silicon wafers by simple thermal evaporation of high purity ZnSe powder. The x-ray diffraction pattern indicates that all diffraction peaks can be attributed to the zinc-blende structured ZnSe. The selected-area electron diffraction, transmission electron microscopy and Raman spectroscopy also show the typical structure of highly crystalline zinc-blende. The stimulated emission of these ZnSe nanoribbons can be observed under a nanosecond laser pulse excitation at a threshold of about 200 kW cm-2. These ZnSe nanoribbons with more structural defects, which were made from a low purity source, only show an emission band at about 610 nm in the photoluminescence spectrum. Furthermore, experiments show that both types of ZnSe nanoribbons show good waveguide properties.

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Structure and stimulated emission of ZnSe nanoribbons grown by thermal evaporation

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