While silver nanoparticles (AgNP) are used in topical treatments and medical devices for humans, no smooth, safe remedy exists to remove them and avoid possible post-treatment uptake in the body. We show here that cysteamine hydrochloride (CYS∙HCl), a simple FDA and EMA approved molecule, is able to dramatically accelerate the otherwise extremely slow oxidation of citrate-coated AgNP by O2 in a wide range of pH, including the physiological 7.4 value, obtaining the halving of AgNP concentration in t < 10 min. The dependence of oxidation kinetics on CYS concentration and pH is studied, finding faster processes on increasing CYS and basicity, despite the decrease of O2 reduction potential. Complexation and electrochemical studies demonstrate that CYS adhesion to AgNP surface followed by formation of 1:2 Ag+:CYS complex is the driving force for the AgNP oxidation, this also giving a definitive explanation to the otherwise still unclear phenomenon of AgNP etching by thiols. The efficacy of CYS∙HCl is verified also on AgNP coated with pectin and PEG-SH, and on AgNP immobilized on surfaces.
Keywords: Coordination complexes; Cysteamine; Etching; Nanoparticles dissolution; Physiological pH; Silver nanoparticles.
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