posted on 2015-12-16, 23:08authored bySara Skoglund, Troy A. Lowe, Jonas Hedberg, Eva Blomberg, Inger Odnevall Wallinder, Susanna Wold, Maria Lundin
The
stability of silver nanoparticles (Ag NPs) potentially released
from clothing during a laundry cycle and their interactions with laundry-relevant
surfactants [anionic (LAS), cationic (DTAC), and nonionic (Berol)]
have been investigated. Surface interactions between Ag NPs and surfactants
influence their speciation and stability. In the absence of surfactants
as well as in the presence of LAS, the negatively charged Ag NPs were
stable in solution for more than 1 day. At low DTAC concentrations
(≤1 mM), DTAC–Ag NP interactions resulted in charge
neutralization and formation of agglomerates. The surface charge of
the particles became positive at higher concentrations due to a bilayer
type formation of DTAC that prevents from agglomeration due to repulsive
electrostatic forces between the positively charged colloids. The
adsorption of Berol was enhanced when above its critical micelle concentration
(cmc). This resulted in a surface charge close to zero and subsequent
agglomeration. Extended DLVO theory calculations were in compliance
with observed findings. The stability of the Ag NPs was shown to depend
on the charge and concentration of the adsorbed surfactants. Such
knowledge is important as it may influence the subsequent transport
of Ag NPs through different chemical transients and thus their potential
bioavailability and toxicity.