Quantum dots (QDs) have tremendous potential for biomedical imaging, including super-resolution techniques that permit imaging below the diffraction limit. However, most QDs are produced via organic methods, and hence require surface treatment to render them water-soluble for biological applications. Previously, we reported a micelle-templating method that yields nanocomposites containing multiple core/shell ZnS–CdSe QDs within the same nanocarrier, increasing overall particle brightness and virtually eliminating QD blinking. Here, this technique is extended to the encapsulation of Mn-doped ZnSe QDs (Mn–ZnSe QDs), which have potential applications in super-resolution imaging as a result of the introduction of Mn 2+ dopant energy levels. The size, shape and fluorescence characteristics of these doped QD-micelles were compared to those of micelles created using core/shell ZnS–CdSe QDs (ZnS–CdSe QD-micelles). Additionally, the stability of both types of particles to photo-...
Jianquan Xu, Qirui Fan, Kalpesh D Mahajan, Gang Ruan, Andrew Herrington, Kayvan F Tehrani, Peter Kner and Jessica O Winter
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Jianquan Xu, Qirui Fan, Kalpesh D Mahajan, Gang Ruan, Andrew Herrington, Kayvan F Tehrani, Peter Kner and Jessica O Winter
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