Strategies for determining heteroaggregation attachment efficiencies of engineered nanoparticles in aquatic environments

Antonia Praetorius (Corresponding author), Elena Badetti, Andrea Brunelli, Arnaud Clavier, Julián Alberto Gallego-Urrea, Helene Walch, Frank von der Kammer, Thilo Hofmann, Nathalie Tepe, Andreas Gondikas, Martin Hassellöv, Aiga Mackevica, Antonio Marcomini, Willie Peijnenburg, Joris T. K. Quik, Marianne Seijo, Serge Stoll

Publications: Contribution to journalArticlePeer Reviewed

Abstract

Heteroaggregation of engineered nanoparticles (ENPs) with suspended particulate matter (SPM) ubiquitous in natural waters often dominates the transport behaviour and overall fate of ENPs in aquatic environments. In order to provide meaningful exposure predictions and support risk assessment for ENPs, environmental fate and transport models require quantitative information about this process, typically in the form of the so-called attachment efficiency for heteroaggregation αhetero. The inherent complexity of heteroaggregation—encompassing at least two different particle populations, various aggregation pathways and several possible attachment efficiencies (α values)—makes its theoretical and experimental determination challenging. In this frontier review we assess the current state of knowledge on heteroaggregation of ENPs with a focus on natural surface waters. A theoretical analysis presents relevant equations, outlines the possible aggregation pathways and highlights different types of α. In a second part, experimental approaches to study heteroaggregation and derive α values are reviewed and three possible strategies are identified: i) monitoring changes in size, ii) monitoring number or mass distribution and iii) studying indirect effects, such as sedimentation. It becomes apparent that the complexity of heteroaggregation creates various challenges and no single best method for its assessment has been developed yet. Nevertheless, many promising strategies have been identified and meaningful data can be derived from carefully designed experiments when accounting for the different concurrent aggregation pathways and clearly stating the type of α reported. For future method development a closer connection between experiments and models is encouraged.
Original languageEnglish
Pages (from-to)351-367
Number of pages17
JournalEnvironmental Science: Nano
Volume7
Issue number2
Early online dateJan 2020
DOIs
Publication statusPublished - 1 Feb 2020

Austrian Fields of Science 2012

  • 210001 Nanoanalytics
  • 105906 Environmental geosciences

Keywords

  • ENPs
  • SPM
  • aquatic environment
  • GOLD NANOPARTICLES
  • INORGANIC COLLOIDS
  • SUSPENDED PARTICULATE MATTER
  • ZERO-VALENT IRON
  • ORGANIC-MATTER
  • HEMATITE COLLOIDS INFLUENCE
  • SILVER NANOPARTICLES
  • DEPOSITION KINETICS
  • PARTICLE ICP-MS
  • TITANIUM-DIOXIDE NANOPARTICLES

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