Abstract

Quantum dots (QDs) are semiconductor nanocrystals with desirable optical properties for biological applications, such as bioimaging and drug delivery. However, the potential toxicity of these nanostructures in biological systems limits their application. The present work is focused on the synthesis, characterization, and evaluation of the toxicity of water‐stable Ni‐doped Zn(Se,S) QDs. Also, the study of nondoped nanostructures was included for comparison purposes. Ni‐doped nanostructures were produced from zinc chloride and selenide aqueous solutions in presence of 3‐mercaptopropionic acid and Ni molar concentration of 0.001 M. In order to evaluate the potential cytoxicity of these doped nanostructures, human pancreatic carcinoma cells (PANC‐1) were used as model. The cell viability was monitored in presence of Ni‐doped Zn(Se,S) QDs at concentrations ranging from 0 μg/mL to 500 μg/mL and light excited Ni‐doped Zn(Se,S) nanostructures were evaluated at 50 μg/mL. Results suggested that Ni‐doped Zn(Se,S) nanostructures were completely safe to PANC‐1 when concentrations from 0 μg/mL to 500 μg/mL were used, whereas non‐doped nanostructures evidenced toxicity at concentrations higher than 200 μg/mL. Also, Ni‐doped Zn(Se,S) QDs under light excitation do not evidence toxicity to PANC‐1. These findings suggest strongly that Zn(Se,S) nanostructures doped with nickel could be used in a safe manner in light‐driving biological applications and drug delivery.

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