Rapid Kinetics of Size and pH-Dependent Dissolution and Aggregation of Silver Nanoparticles in Simulated Gastric Fluid

As silver nanoparticles (AgNPs) are used in a wide array of commercial products and can enter the human body through oral exposure, it is important to understand the fundamental physical and chemical processes leading to changes in nanopartide size under the conditions of the gastrointestinal (GI) tract. Rapid AgNP growth was observed using nanoparticle tracking analysis with 30 s resolution over a period of 17 min in simulated gastric fluid (SGF) to explore rapid kinetics as a function of pH (SGF at pH 2, 3.5, 4.5 and.5), size (20 and 110 nm AgNPs), and nanoparticle coating (citrate and PVP). Growth was observed for 20 nm AgNP at each pH, decreasing in rate with increasing pH, with the kinetics shifting from second-order to first-order. The 110 nm AgNP showed growth at 153.5 pH, with no growth observed at higher pH. This behavior can be Ag in acidic environments, which precipitates with Cr, leading to particle growth and facil decreasing their electrostatic repulsion in solution. These results highlight the need to further initial size, physicochemical properties, and kinetics of AgNPs after ingestion to assess potential explained by the generation of itating partide aggregation by understand the importance of toxicity.