Uniform SiGe/Si quantum well nanorod and nanodot arrays fabricated using nanosphere lithography

Hung Tai Chang; Bo Lun Wu; Shao Liang Cheng; Tu Lee; Sheng Wei Lee

doi:10.1186/1556-276X-8-349

Uniform SiGe/Si quantum well nanorod and nanodot arrays fabricated using nanosphere lithography

Hung Tai Chang, Bo Lun Wu, Shao Liang Cheng, Tu Lee, Sheng Wei Lee

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

8 引文斯高帕斯（Scopus）

摘要

This study fabricates the optically active uniform SiGe/Si multiple quantum well (MQW) nanorod and nanodot arrays from the Si_0.4Ge_0.6/Si MQWs using nanosphere lithography (NSL) combined with the reactive ion etching (RIE) process. Compared to the as-grown sample, we observe an obvious blueshift in photoluminescence (PL) spectra for the SiGe/Si MQW nanorod and nanodot arrays, which can be attributed to the transition of PL emission from the upper multiple quantum dot-like SiGe layers to the lower MQWs. A possible mechanism associated with carrier localization is also proposed for the PL enhancement. In addition, the SiGe/Si MQW nanorod arrays are shown to exhibit excellent antireflective characteristics over a wide wavelength range. These results indicate that SiGe/Si MQW nanorod arrays fabricated using NSL combined with RIE would be potentially useful as an optoelectronic material operating in the telecommunication range.

原文	???core.languages.en_GB???
文章編號	349
頁（從 - 到）	1-8
頁數	8
期刊	Nanoscale Research Letters
卷	8
發行號	1
DOIs	https://doi.org/10.1186/1556-276X-8-349
出版狀態	已出版 - 2013

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10.1186/1556-276X-8-349

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title = "Uniform SiGe/Si quantum well nanorod and nanodot arrays fabricated using nanosphere lithography",

abstract = "This study fabricates the optically active uniform SiGe/Si multiple quantum well (MQW) nanorod and nanodot arrays from the Si0.4Ge0.6/Si MQWs using nanosphere lithography (NSL) combined with the reactive ion etching (RIE) process. Compared to the as-grown sample, we observe an obvious blueshift in photoluminescence (PL) spectra for the SiGe/Si MQW nanorod and nanodot arrays, which can be attributed to the transition of PL emission from the upper multiple quantum dot-like SiGe layers to the lower MQWs. A possible mechanism associated with carrier localization is also proposed for the PL enhancement. In addition, the SiGe/Si MQW nanorod arrays are shown to exhibit excellent antireflective characteristics over a wide wavelength range. These results indicate that SiGe/Si MQW nanorod arrays fabricated using NSL combined with RIE would be potentially useful as an optoelectronic material operating in the telecommunication range.",

keywords = "Epitaxy, Nanosphere lithography, Quantum dots, Quantum wells, Sige",

author = "Chang, {Hung Tai} and Wu, {Bo Lun} and Cheng, {Shao Liang} and Tu Lee and Lee, {Sheng Wei}",

note = "Funding Information: The research is supported by the National Science Council of Taiwan under contract no. NSC-100-2221-E-008-016-MY3. The authors also thank the Center for Nano Science and Technology at National Central University.",

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doi = "10.1186/1556-276X-8-349",

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T1 - Uniform SiGe/Si quantum well nanorod and nanodot arrays fabricated using nanosphere lithography

AU - Chang, Hung Tai

AU - Wu, Bo Lun

AU - Cheng, Shao Liang

AU - Lee, Tu

AU - Lee, Sheng Wei

N1 - Funding Information: The research is supported by the National Science Council of Taiwan under contract no. NSC-100-2221-E-008-016-MY3. The authors also thank the Center for Nano Science and Technology at National Central University.

PY - 2013

Y1 - 2013

N2 - This study fabricates the optically active uniform SiGe/Si multiple quantum well (MQW) nanorod and nanodot arrays from the Si0.4Ge0.6/Si MQWs using nanosphere lithography (NSL) combined with the reactive ion etching (RIE) process. Compared to the as-grown sample, we observe an obvious blueshift in photoluminescence (PL) spectra for the SiGe/Si MQW nanorod and nanodot arrays, which can be attributed to the transition of PL emission from the upper multiple quantum dot-like SiGe layers to the lower MQWs. A possible mechanism associated with carrier localization is also proposed for the PL enhancement. In addition, the SiGe/Si MQW nanorod arrays are shown to exhibit excellent antireflective characteristics over a wide wavelength range. These results indicate that SiGe/Si MQW nanorod arrays fabricated using NSL combined with RIE would be potentially useful as an optoelectronic material operating in the telecommunication range.

AB - This study fabricates the optically active uniform SiGe/Si multiple quantum well (MQW) nanorod and nanodot arrays from the Si0.4Ge0.6/Si MQWs using nanosphere lithography (NSL) combined with the reactive ion etching (RIE) process. Compared to the as-grown sample, we observe an obvious blueshift in photoluminescence (PL) spectra for the SiGe/Si MQW nanorod and nanodot arrays, which can be attributed to the transition of PL emission from the upper multiple quantum dot-like SiGe layers to the lower MQWs. A possible mechanism associated with carrier localization is also proposed for the PL enhancement. In addition, the SiGe/Si MQW nanorod arrays are shown to exhibit excellent antireflective characteristics over a wide wavelength range. These results indicate that SiGe/Si MQW nanorod arrays fabricated using NSL combined with RIE would be potentially useful as an optoelectronic material operating in the telecommunication range.

KW - Epitaxy

KW - Nanosphere lithography

KW - Quantum dots

KW - Quantum wells

KW - Sige

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DO - 10.1186/1556-276X-8-349

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AN - SCOPUS:84887278275

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VL - 8

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JF - Nanoscale Research Letters

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Uniform SiGe/Si quantum well nanorod and nanodot arrays fabricated using nanosphere lithography

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