Abstract
Dissolution is an important property that influences nanoparticle abundance and biological responses, and often becomes a critical factor in determining the safety of nanoparticles. In our study, the dissolution behavior of commercial (c-CuO) and synthesized CuO (s-CuO) nanoparticles, of size 31 ± 4 nm and 7 ± 1 nm, respectively, in a range of simulated aqueous media (artificial sea water, artificial lysosomal fluid, simulated body fluid, and 1 mM NaNO3) was assessed. The study demonstrated significant differences in the dissolution behavior of the nanoparticles based on the exposure concentration and exposure media. In biological media, both c-CuO and s-CuO demonstrated more than 80% dissolution within 12 to 24 h as compared to less than 15% dissolution in environmental media over the 7-day period. Due to the inherent size difference between c-CuO and s-CuO nanoparticles, the rate of dissolution was found to be higher in the case of s-CuO nanoparticles. To validate the role of dissolution, the microbial response of CuO nanoparticles and its ionic species was evaluated on E. coli. This study highlights the interplay between particulate and ionic form and experimentally validates how the suspension media acts as a critical factor governing the solubility of nanoparticles.
Graphical abstract
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