Low-temperature synthesis of tetrapod CdSe/CdS quantum dots through a microfluidic reactor

Tetrapod CdSe/CdS quantum dots (QDs) have attracted extensive research interest in light-emitting applications due to their anisotropic optical properties and large absorption cross-section. Traditional synthesis methods for tetrapod CdSe/CdS QDs usually employ fatty phosphonic acid ligands to induc...

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Bibliographic Details
Published in:Nanoscale 2021-12, Vol.13 (46), p.19474-19483
Main Authors: Xing, Weishuo, Zhang, Shuang, An, Ruoting, Bi, Wengang, Geng, Chong, Xu, Shu
Format: Article
Language:English
Subjects:
Absorption cross sections
Cadmium selenides
Cadmium sulfide
High temperature
Ligands
Low temperature
Microfluidics
Optical properties
Phosphonic acids
Quantum dots
Synthesis
Temperature
Wurtzite
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Summary:Tetrapod CdSe/CdS quantum dots (QDs) have attracted extensive research interest in light-emitting applications due to their anisotropic optical properties and large absorption cross-section. Traditional synthesis methods for tetrapod CdSe/CdS QDs usually employ fatty phosphonic acid ligands to induce the growth of wurtzite CdS arms on cubic CdSe QDs at high temperatures (350-380 °C). Here, a low temperature (120 °C) route was developed for the synthesis of tetrapod CdSe/CdS QDs using mixed amine ligands instead of phosphonic acid ligands. A study of the growth mechanism reveals that the amine ligands induce the orientation growth of cubic CdS arms on wurtzite CdSe QDs through a pyramid-shaped intermediate structure. The low reaction temperature facilitates the growth control of the tetrapod CdSe/CdS QDs through a microfluidic reactor. This study substantially simplifies the synthetic chemistry for the anisotropic growth of CdS on CdSe QDs, paving the way for green and economic production of tetrapod CdSe/CdS QDs towards efficient light-emitting applications. Tetrapod CdSe/CdS QDs are synthesized at 120 °C under controlled growth conditions through a microfluidic reactor for light-emitting applications.
ISSN:2040-3364
2040-3372
DOI:10.1039/d1nr04070g