Interactions between zinc oxide nanoparticles and hexabromocyclododecane in simulated waters

Khan, Anwar Ul Haq; Liu, Yanju; Naidu, Ravi; Fang, Cheng; Dharmarajan, Raja; Shon, Hokyong

Title: Interactions between zinc oxide nanoparticles and hexabromocyclododecane in simulated waters
Creator: Khan, Anwar Ul Haq; Liu, Yanju; Naidu, Ravi; Fang, Cheng; Dharmarajan, Raja; Shon, Hokyong
Relation: Environmental Technology and Innovation Vol. 24, Issue November 2021, no. 102078
Publisher Link: http://dx.doi.org/10.1016/j.eti.2021.102078
Publisher: Elsevier
Resource Type: journal article
Date: 2021
Description: The zinc oxide nanoparticles (ZnO-NPs) have been increasingly applied in industries and consumer products, causing release of these nanoparticles in environments. The behaviour of ZnO-NPs in the water systems is complicated due to the presence of different cations, anions, organic substances (e.g. humic acid HA) and other organic pollutants (e.g. commonly used brominated flame retardant, BFR). In particular, the aggregation and alteration of these nanoparticles can be influenced by co-existence contaminants. In this study, the interactions between hexabromocyclododecane (HBCD) and ZnO-NPs were investigated for the physicochemical properties and colloidal stability changes in various simulated waters. This is significant to understand the fate and behaviour of ZnO-NPs at environmental relevant conditions. The surface chemistry and particle size distribution (PSD) of ZnO-NPs with and without the existence of HBCD, HA and electrolytes (NaCl, CaCl2 and MgCl2) after different periods (1 and 3 weeks) were investigated at pH 7.00 0.02. The size of the ZnO-NPs increased from nanometres to micrometres with the addition of numerous concentrations of HBCD, HA, and cations and their mixtures. The zeta potential of ZnO-NPs increased upon addition of HBCD, HA and electrolytes indicating a more stable agglomeration form while less agglomeration was observed in the ZnO-NPs and HA suspension after 3 weeks. Hydrophobic and electrostatic interactions, van der Waals forces, including hydrogen bonding and cation bridging could be potential interactive driving forces. The results indicated agglomeration of ZnO-NPs in the existence of organic substances, salts and contaminants,thus sedimentation and precipitation are promising under salty surface water/sea water.
Subject: ZnO-NPs; HBCD; zeta potential; agglomeration; aqueous media; SDG 14; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1471003
Identifier: uon:48592
Identifier: ISSN:2352-1864
Rights: x
Language: eng
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