pH-dependent fluorescence of thiol-coated CdSe/CdS quantum dots in an aqueous phase

The results presented in this paper show how the optical properties and colloidal stability of quantum dots (QDs) vary depending on pH conditions. For this investigation, as-synthesized hydrophobic CdSe/CdS QDs were transferred to an aqueous medium by surface modification with 3-mercaptopropionic acid. The ligand exchange procedure was applied under three different pH conditions: acidic, neutral and alkaline, to obtain three kinds of hydrophilic QDs dispersed in phosphate buffer. The efficiency of the functionalization of QDs was estimated based on the changes in ABS and the highest value was obtained under acidic conditions (45%). The efficiency of photoluminescence (PL) was also best preserved under these conditions, although it was 30 times less than the PL of hydrophobic QDs. Then, all three kinds of hydrophilic QDs were dispersed in solutions with a wide range of pH (2-12) and investigated by absorbance and PL measurements. The results show that QDs subjected to a ligand exchange procedure are characterized by intensive PL at the selected pH values, which correspond to pK(a) of the ligand. This phenomenon is independent of the pH at which the ligand exchange procedure is conducted. Moreover, it was found that the PL intensity is preserved during the experiment for QDs functionalized under neutral conditions, whereas it decreases for acidic and increases for alkaline conditions.

Automated summary

The results demonstrate how the optical properties and colloidal stability of quantum dots (QDs) vary depending on pH conditions, with the highest efficiency of functionalization and photoluminescence preservation observed under acidic conditions. The study also shows that QDs subjected to ligand exchange procedure exhibit intense photoluminescence at specific pH values, regardless of the pH at which the procedure is conducted. Additionally, the study found that photoluminescence intensity is preserved for QDs functionalized under neutral conditions, decreases under acidic conditions, and increases under alkaline conditions.