A rapid approach for measuring silver nanoparticle concentration and dissolution in seawater by UV–Vis

•A simple method for detection of sterically stabilized silver nanoparticles using UV–vis•A simple method for measuring dissolution of sterically stabilized silver nanoparticles using UV–vis•The dissolution of silver nanoparticles is concentration dependent.•Silver nanoparticles dissolve fully in se...

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Bibliographic Details
Published in:The Science of the total environment 2018-03, Vol.618, p.597-607
Main Authors: Sikder, Mithun, Lead, Jamie R., Chandler, G. Thomas, Baalousha, Mohammed
Format: Article
Language:English
Subjects:
Detection
Dissolution
Nanoparticles
Silver
UV–Vis spectroscopy
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Summary:•A simple method for detection of sterically stabilized silver nanoparticles using UV–vis•A simple method for measuring dissolution of sterically stabilized silver nanoparticles using UV–vis•The dissolution of silver nanoparticles is concentration dependent.•Silver nanoparticles dissolve fully in seawater at environmental relevant, low concentrations. [Display omitted] Detection and quantification of engineered nanoparticles (NPs) in environmental systems is challenging and requires sophisticated analytical equipment. Furthermore, dissolution is an important environmental transformation process for silver nanoparticles (AgNPs) which affects the size, speciation and concentration of AgNPs in natural water systems. Herein, we present a simple approach for the detection, quantification and measurement of dissolution of PVP-coated AgNPs (PVP-AgNPs) based on monitoring their optical properties (extinction spectra) using UV–vis spectroscopy. The dependence of PVP-AgNPs extinction coefficient (ɛ) and maximum absorbance wavelength (λmax) on NP size was experimentally determined. The concentration, size, and extinction spectra of PVP-AgNPs were characterized during dissolution in 30ppt synthetic seawater. AgNPs concentration was determined as the difference between the total and dissolved Ag concentrations measured by inductively coupled plasma-mass spectroscopy (ICP-MS); extinction spectra of PVP-AgNPs were monitored by UV–vis; and size evolution was monitored by atomic force microscopy (AFM) over a period of 96h. Empirical equations for the dependence of maximum absorbance wavelength (λmax) and extinction coefficient (ɛ) on NP size were derived. These empirical formulas were then used to calculate the size and concentration of PVP-AgNPs, and dissolved Ag concentration released from PVP-AgNPs in synthetic seawater at variable particle concentrations (i.e. 25–1500μgL−1) and in natural seawater at particle concentration of 100μgL−1. These results suggest that UV–vis can be used as an easy and quick approach for detection and quantification (size and concentration) of sterically stabilized PVP-AgNPs from their extinction spectra. This approach can also be used to monitor the release of Ag from PVP-AgNPs and the concurrent NP size change. Finally, in seawater, AgNPs dissolve faster and to a higher extent with the decrease in NP concentration toward environmentally relevant concentrations.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2017.04.055