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National Institute of Environmental Health Sciences

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Publication Detail

Title: Using light scattering to evaluate the separation of polydisperse nanoparticles.

Authors: Galyean, Anne A; Vreeland, Wyatt N; Filliben, James J; Holbrook, R David; Ripple, Dean C; Weinberg, Howard S

Published In Anal Chim Acta, (2015 Jul 30)

Abstract: The analysis of natural and otherwise complex samples is challenging and yields uncertainty about the accuracy and precision of measurements. Here we present a practical tool to assess relative accuracy among separation protocols for techniques using light scattering detection. Due to the highly non-linear relationship between particle size and the intensity of scattered light, a few large particles may obfuscate greater numbers of small particles. Therefore, insufficiently separated mixtures may result in an overestimate of the average measured particle size. Complete separation of complex samples is needed to mitigate this challenge. A separation protocol can be considered improved if the average measured size is smaller than a previous separation protocol. Further, the protocol resulting in the smallest average measured particle size yields the best separation among those explored. If the differential in average measured size between protocols is less than the measurement uncertainty, then the selected protocols are of equivalent precision. As a demonstration, this assessment metric is applied to optimization of cross flow (V(x)) protocols in asymmetric flow field flow fractionation (AF(4)) separation interfaced with online quasi-elastic light scattering (QELS) detection using mixtures of polystyrene beads spanning a large size range. Using this assessment metric, the V(x) parameter was modulated to improve separation until the average measured size of the mixture was in statistical agreement with the calculated average size of particles in the mixture. While we demonstrate this metric by improving AF(4) V(x) protocols, it can be applied to any given separation parameters for separation techniques that employ dynamic light scattering detectors.

PubMed ID: 26320655 Exiting the NIEHS site

MeSH Terms: Fractionation, Field Flow; Light; Nanoparticles/chemistry*; Particle Size; Polystyrenes/chemistry*; Scattering, Radiation

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