Fate of metallic engineered nanomaterials in constructed wetlands: prospection and future research perspectives

Auvinen, Hannele; Gagnon, Vincent; Rousseau, Diederik; Laing, Gijs Du

doi:10.1007/s11157-017-9427-0

Cited by 29 publications

(2 citation statements)

References 109 publications

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“…Conversely, the growth of the aggregates of MoO 3 and Cu(OH) 2 NPs observed in the presence of RE correlated with higher dissolution rates and may reflect stronger attractive forces between NPs even in the presence of the organic ligands, or possible bridging between organic molecules. 41,47 Nevertheless, the change in size distributions observed with spICP-MS are in line with the Zetasizer observations. Higher dissolution and nonaggregation of Cu-based NP have been reported for wheat plants in saturated paste extracts, 18 as well as in wheat RE.…”

Section: ■ Results and Discussionsupporting

confidence: 85%

Dissolution and Aggregation of Metal Oxide Nanoparticles in Root Exudates and Soil Leachate: Implications for Nanoagrochemical Application

Cervantes-Avilés

Huang

Keller

2021

Environ. Sci. Technol.

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Knowledge of dissolution, aggregation, and stability of nanoagrochemicals in root exudates (RE) and soil leachate will contribute to improving delivery mechanisms, transport in plants, and bioavailability. We characterized aggregation, stability, and dissolution of four nanoparticles (NPs) in soybean RE and soil leachate: nano-CeO 2 , nano-Mn 3 O 4 , nano-Cu(OH) 2 , and nano-MoO 3 . Aggregation differed considerably in different media. In RE, nano-Cu(OH) 2 , and nano-MoO 3 increased their aggregate size for 5 days; their mean sizes increased from 518 ± 43 nm to 938 ± 32 nm, and from 372 ± 14 nm to 690 ± 65 nm, respectively. Conversely, nano-CeO 2 and nano-Mn 3 O 4 disaggregated in RE with time, decreasing from 289 ± 5 nm to 129 ± 10 nm, and from 761 ± 58 nm to 143 ± 18 nm, respectively. Organic acids in RE and soil leachate can be adsorbed onto particle surfaces, influencing aggregation. Charge of the four NPs was negative in contact with RE and soil leachate, due to organic matter present in RE and soil leachate. Dissolution in RE after 6 days was 38%, 1.2%, 0.5%, and <0.1% of the elemental content of MoO 3 , Cu(OH) 2 , Mn 3 O 4 , and CeO 2 NPs. Thus, the bioavailability and efficiency of delivery of the NPs or their active ingredients will be substantially modified soon after they are in contact with RE or soil leachate.

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Section: ■ Results and Discussionsupporting

confidence: 85%

Dissolution and Aggregation of Metal Oxide Nanoparticles in Root Exudates and Soil Leachate: Implications for Nanoagrochemical Application

Cervantes-Avilés

Huang

Keller

2021

Environ. Sci. Technol.

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“…All nominal Ag-PVP NPs were negatively charged in DI water, with ZP between À19.7 and À23.8 mV (Fig. 1A), similar to other PVP-coated nano-Ag (Auvinen et al, 2017). The LSPR of Ag-PVP NPs clearly showed a size dependence (Fig.…”

Section: Ag-pvp Nps Characterizationmentioning

confidence: 59%

Multi-technique approach to study the stability of silver nanoparticles at predicted environmental concentrations in wastewater

2019

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The concentration of silver nanoparticles (nano-Ag) in aqueous media influences the kinetics of ion release; hence, the transformation and stability of nano-Ag are also influenced. The stability, dissolution and further transformation of nano-Ag in aqueous media at predicted environmental concentrations (PECs) mg/L may differ from that reported at higher concentrations. Analytical techniques characterizing nanoparticles (NPs) at mg/L have advantages and limitations, including an inherent bias based on theoretical and analytical considerations, as well as the matrix effects. In this work, we applied nanoparticle tracking analysis (NTA), single particle ICP-MS (sp-ICP-MS), and localized surface plasmon resonance (LSPR) analysis to study the stability and dissolution of nano-Ag with different nominal sizes (20, 40, 80 and 100 nm) at PECs in synthetic wastewater (SWW). The influence of the main wastewater constituents, such as organic matter, Cl À , S 2À , PO 4 3À and NH 4 þ , on the stability and dissolution of nano-Ag (40 nm) at PECs was also determined. Diagrams of the predominant species of silver exposed to major ligands were generated using MINTEQ. After 5 h in SWW, 20 nm nano-Ag dissolved 19.27% and 40 nm nano-Ag dissolved 14.8%. Aggregates of Ag particles were clearly noted for 80 and 100 nm nano-Ag after 5 h of exposure to SWW. Aggregates size also ranged very similar for both techniques, NTA and sp-ICP-MS, 29e211 nm and 38e241 for NTA and 48e210 and 50e220 nm, for sp-ICP-MS, respectively. Monodispersed size distribution (22e85 nm) and low dissolution (up to 5.1%) of nano-Ag at PECs were observed in presence of organic matter (5e800 mg/L) and PO 4 3À (9.5e47.5 mg/L), while precipitation and higher dissolution (up to 74.9%) were observed in media containing either Cl À (0.07e10.64 g/L), S 2À (0.32 e32.1 mg/L) or NH 4 þ (36e90 mg/L), respectively. Speciation diagrams predict the formation of Ag 2 S (s) and AgCl (s) , and soluble species such as AgCl x (xÀ1)-, AgNH 3 þ and Ag(NH 3) 2þ when Ag þ at PECs in wastewater. The NTA and sp-ICP-MS were suitable techniques for sizing nano-Ag in wastewater at PECs at experimented nominal sizes. sp-ICP-MS was also useful to quantify the coexistence of Ag þ and nano-Ag. The LSPR analysis served to determine the relative persistence of original nano-Ag at PECs in the wastewater during the first 5 h after spiking.

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Effects of the Transformation of Metallic Nanoparticles in the Environment and Its Toxicity on Aquatic and Terrestrial Life Forms

Das

Ghosh

Kerkar

et al. 2021

Free Radical Biology and Environmental Toxicity

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Fate of metallic engineered nanomaterials in constructed wetlands: prospection and future research perspectives

Cited by 29 publications

References 109 publications

Dissolution and Aggregation of Metal Oxide Nanoparticles in Root Exudates and Soil Leachate: Implications for Nanoagrochemical Application

Dissolution and Aggregation of Metal Oxide Nanoparticles in Root Exudates and Soil Leachate: Implications for Nanoagrochemical Application

Multi-technique approach to study the stability of silver nanoparticles at predicted environmental concentrations in wastewater

Effects of the Transformation of Metallic Nanoparticles in the Environment and Its Toxicity on Aquatic and Terrestrial Life Forms

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