The interaction between anionic quantum dots (QDs) and a gemini surfactant [C(16)Im-3OH-ImC(16)]Br-2 in water resulted in luminescent self-assemblies. The surfactant self-associates into micelles before engaging with the QDs. The addition of the surfactant to the QD solution led to the formation of supramolecular and vesicle structures, with self-assembled QDs inside the spherical vesicles exhibiting luminescence.
The interaction of anionic quantum dots (QDs) with a gemini surfactant (1,1 & PRIME;-(propane-1,3-diyl-2-ol)bis(3-hexadecyl-1H-imidazol-3-ium)) bromide [C(16)Im-3OH-ImC(16)]Br-2 in water has been investigated, yielding a unique class of luminescent self-assemblies. Instead of engaging with the QDs directly, the dimeric surfactant self-associates into micelles first. After adding [C(16)Im-3OH-ImC(16)]Br-2 to aqueous solutions containing QDs, two types of structural formations, supramolecular and vesicles, were confirmed. A variety of intermediary structures, including cylindrical and oligomers of vesicles are found to be present. Field-emission scanning electron microscopy (FESEM) and confocal laser scanning microscopy (CLSM) were used to investigate the luminescent and morphological properties of the self-assembled nanostructures in the first turbid (T-i) and second turbid (T-f) regions. FESEM images show discrete spherical vesicles in the mixture's T-i and T-f regions. The presence of self-assembled QDs in these spherical vesicles makes them naturally luminescent, according to CLSM data. Because the QDs are equally distributed in the micelles, their self-quenching is greatly reduced and their luminescence is effectively sustained. We have also demonstrated the successful encapsulation of dye rhodamine B (RhB) into these self-assembled vesicles using CLSM without any structural disturbance. The discovery of luminescent self-assembled vesicles from a QD-[C(16)Im-3OH-ImC(16)]Br-2 combination might lead to new potential in controlled release drug delivery and sensing.
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