Microwave-mediated nonaqueous synthesis of quantum dots at moderate temperature

Ming Qiang Zhu; Zheng Gu; Jun Bing Fan; Xiao Bo Xu; Jing Cui; Jin Hua Liu; Feng Long

doi:10.1021/la900962t

Microwave-mediated nonaqueous synthesis of quantum dots at moderate temperature

Ming Qiang Zhu, Zheng Gu, Jun Bing Fan, Xiao Bo Xu, Jing Cui, Jin Hua Liu, Feng Long

Hunan University

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

28 Scopus citations

Abstract

The use of microwave irradiation to accelerate both inorganic and organic chemical reactions has attracted widespread attention. Generally, microwave-mediated synthesis of quantum dots (QDs) has been conducted in aqueous solution. Here, using commercial diesel and glycerol as reaction medium, a microwave-mediated nonaqueous method toward CdSe QDs with size-tunable photoluminescent properties produces oleic-acid-protected QDs at moderate reaction temperatures of 50-140 °C, which are much lower than the current temperature necessary for the synthesis of CdSe QDs in organic solvents. The appropriate condition optimization for high-quality CdSe QDs shows that different sizes of CdSe QDs with emission wavelengths between 450 and 600 nm have been synthesized through varying time, temperature, feed ratio, and reaction medium.

Original language	English
Pages (from-to)	10189-10194
Number of pages	6
Journal	Langmuir
Volume	25
Issue number	17
DOIs	https://doi.org/10.1021/la900962t
State	Published - 1 Sep 2009
Externally published	Yes

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10.1021/la900962t

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title = "Microwave-mediated nonaqueous synthesis of quantum dots at moderate temperature",

abstract = "The use of microwave irradiation to accelerate both inorganic and organic chemical reactions has attracted widespread attention. Generally, microwave-mediated synthesis of quantum dots (QDs) has been conducted in aqueous solution. Here, using commercial diesel and glycerol as reaction medium, a microwave-mediated nonaqueous method toward CdSe QDs with size-tunable photoluminescent properties produces oleic-acid-protected QDs at moderate reaction temperatures of 50-140 °C, which are much lower than the current temperature necessary for the synthesis of CdSe QDs in organic solvents. The appropriate condition optimization for high-quality CdSe QDs shows that different sizes of CdSe QDs with emission wavelengths between 450 and 600 nm have been synthesized through varying time, temperature, feed ratio, and reaction medium.",

author = "Zhu, {Ming Qiang} and Zheng Gu and Fan, {Jun Bing} and Xu, {Xiao Bo} and Jing Cui and Liu, {Jin Hua} and Feng Long",

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doi = "10.1021/la900962t",

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T1 - Microwave-mediated nonaqueous synthesis of quantum dots at moderate temperature

AU - Zhu, Ming Qiang

AU - Gu, Zheng

AU - Fan, Jun Bing

AU - Xu, Xiao Bo

AU - Cui, Jing

AU - Liu, Jin Hua

AU - Long, Feng

PY - 2009/9/1

Y1 - 2009/9/1

N2 - The use of microwave irradiation to accelerate both inorganic and organic chemical reactions has attracted widespread attention. Generally, microwave-mediated synthesis of quantum dots (QDs) has been conducted in aqueous solution. Here, using commercial diesel and glycerol as reaction medium, a microwave-mediated nonaqueous method toward CdSe QDs with size-tunable photoluminescent properties produces oleic-acid-protected QDs at moderate reaction temperatures of 50-140 °C, which are much lower than the current temperature necessary for the synthesis of CdSe QDs in organic solvents. The appropriate condition optimization for high-quality CdSe QDs shows that different sizes of CdSe QDs with emission wavelengths between 450 and 600 nm have been synthesized through varying time, temperature, feed ratio, and reaction medium.

AB - The use of microwave irradiation to accelerate both inorganic and organic chemical reactions has attracted widespread attention. Generally, microwave-mediated synthesis of quantum dots (QDs) has been conducted in aqueous solution. Here, using commercial diesel and glycerol as reaction medium, a microwave-mediated nonaqueous method toward CdSe QDs with size-tunable photoluminescent properties produces oleic-acid-protected QDs at moderate reaction temperatures of 50-140 °C, which are much lower than the current temperature necessary for the synthesis of CdSe QDs in organic solvents. The appropriate condition optimization for high-quality CdSe QDs shows that different sizes of CdSe QDs with emission wavelengths between 450 and 600 nm have been synthesized through varying time, temperature, feed ratio, and reaction medium.

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Microwave-mediated nonaqueous synthesis of quantum dots at moderate temperature

Abstract

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