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Fragmentation of Magic‐Size Cluster Precursor Compounds into Ultrasmall CdS Quantum Dots with Enhanced Particle Yield at Low Temperatures

Lijia Li, Jing Zhang, Meng Zhang, N. L. Rowell, Chunchun Zhang, Shanling Wang, Jiao Lu, Hongsong Fan, Wen Huang, Xiaoqin Chen, Kui Yu

2020Angewandte Chemie International Edition48 citationsDOI

Abstract

Abstract Colloidal small‐size CdS quantum dots (QDs) are produced usually with low particle yield, together with side products such as the particular precursor compounds (PCs) of magic‐size clusters (MSC). Here, we report our synthesis of small‐size CdS QDs without the coexistence of the PC and thus with enhanced particle yield. For a conventional reaction of cadmium oleate (Cd(OA) 2 ) and sulfur (S) in 1‐octadecene (ODE), we show that after the formation of the PC in the pre‐nucleation stage, the addition of tri‐n‐octylphosphine oxide (TOPO) facilitates the production of small‐size QDs. We demonstrate that TOPO fragmentizes the PC that have formed, which enables the nucleation and growth of small‐size QDs even at room temperature. Our findings introduce a new approach to making small‐size QDs without the coexistence of the PC and with improved particle yield. Providing experimental evidence for the two‐pathway model proposed for the pre‐nucleation stage of colloidal binary QDs, the present study aids in the advance of non‐classical nucleation theory.

Topics & Concepts

NucleationQuantum dotParticle sizeMaterials scienceQuantum yieldYield (engineering)NanotechnologyChemical physicsColloidChemical engineeringCluster (spacecraft)Particle (ecology)OxideNanocrystalChemistryPhysical chemistryPhysicsOrganic chemistryMetallurgyOceanographyQuantum mechanicsGeologyEngineeringFluorescenceProgramming languageComputer scienceQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin FilmsNanocluster Synthesis and Applications
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