Magnetite Hydrosols with Positive and Negative Surface Charge of Nanoparticles: Stability and Effect on the Lifespan of Drosophila melanogaster

Mikhaylov, Vasily I.; Kryuchkova, Anastasiya V.; Sitnikov, Petr A.; Koval, Liubov A.; Zemskaya, Nadezhda V.; Krivoshapkina, Elena F.; Krivoshapkin, Pavel V.

Magnetite Hydrosols with Positive and Negative Surface Charge of Nanoparticles: Stability and Effect on the Lifespan of Drosophila melanogaster

2020

This paper presents sols of uncoated and citric acid-coated Fe₃O₄ nanoparticles obtained by a combination of coprecipitation and sonochemistry methods. A stable concentrated CA-Fe₃O₄ sol synthesized by a combination of coprecipitation with an inconvenient Fe²⁺/Fe³⁺ ratio, modification with citric acid and US treatment was obtained for the first time. A comparative analysis of the composition and morphology of nanoparticles was performed. The sols are oppositely charged and behave as a typical ferrofluid. The citric acid-modified sol is aggregatively stable over wider ranges of pH and electrolyte concentration, but it becomes less stable with the temperature increase. DLVO calculations showed that steric repulsion forces are a vital factor contributing to increased aggregative stability in a modified Fe₃O₄ sol. The experiments have revealed the magneto-optical effect in a modified Fe₃O₄ sol with an electrolyte concentration of 0.025–0.075 M caused by a high potential barrier and a deep secondary minimum in pairwise interaction curves. The “pK spectroscopy” mathematical model to describe the potentiometric curves of synthesized magnetite sols was used for the first time. According to potentiometric titration, the ions of the electrolyte practically do not contribute to formation of a surface charge in modified Fe₃O₄ with a change in pH due to blocking the magnetite surface by citric acid molecules. Drosophila melanogaster was used as a model to show that Fe₃O₄ in chronic exposure has a low toxic effect.

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