Separation and Tracing of Anthropogenic Magnetite Nanoparticles in the Urban Atmosphere

Zhang, Qinghua; Lü, Dawei; Wang, Dingyi; Yang, Xiangdong; Zuo, Peijie; Yang, Hang; Fu, Qiang; Liu, Qian; Jiang, Guibin

doi:10.1021/acs.est.0c01841

Cited by 54 publications

(94 citation statements)

References 65 publications

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“…The sample with the highest specific area was sample 7# (54.2 m 2 /g), while the lowest was sample 5# (16.8 m 2 /g). Zhang et al (2020b) found that magnetic iron oxides would enhance the toxicity effect because that it enhances the co-deposition of other ferromagnetic or paramagnetic substances and promotes the accumulation in the human body. The magnetization curves and saturation magnetization values of the particles are shown in Figure S6a and S6b.…”

Section: Particle Structure Analysismentioning

confidence: 99%

Structural property and risk assessment of loose deposits in drinking water distribution systems

Zhuang

Qin

et al. 2021

Journal of Water Supply: Research and Technology-Aqua

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Discoloration events caused by loose deposits resuspension in drinking water distribution systems (DWDS) are main aspects of customer complaints across the world, but the understanding of the potential risks of loose deposits is insufficient. In this study, loose deposits in real DWDS were collected from regions frequently experiencing ‘yellow water’. Cytotoxicity of healthy human liver cells was used to evaluate the toxicity risks of the particle samples. The results showed that the loose deposits would have a realistic discoloration risk (turbidity > 10 NTU) when their concentrations were higher than 10 mg/L. The water sample containing 1,000 mg/L loose deposits had dark yellow color (100–300 PCU) and cytotoxicity (viability of human liver cells during cytotoxicity tests 59.18–80.69%), while the water sample containing 1 mg/L loose deposits did not have obvious color (<15 PCU) and cytotoxicity (>97.00%). Particle size showed a stronger correlation with relative viability (r = 0.761) than other properties (specific area, metal content, contact angle, saturation magnetization and electron transfer number). However, it is interesting to notice that both turbidity and color had a low correlation with relative viability, thus the toxicity of the particles could not be properly judged using turbidity or color. This study gives an important guidance that though the loose deposits could be visualized during water discoloration, its toxicity risks could not be evaluated through aesthetic indicators.

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Section: Particle Structure Analysismentioning

confidence: 99%

Structural property and risk assessment of loose deposits in drinking water distribution systems

Zhuang

Qin

et al. 2021

Journal of Water Supply: Research and Technology-Aqua

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“…Magnetite (Fe 3 O 4 ) is a kind of naturally occurring mineral, and it is also ubiquitous in the atmospheric environment. 1–6 Several studies have found that airborne magnetite nanoparticles were present in different human organs, suggesting that magnetite nanoparticles in the atmosphere may be able to enter the human circulatory system or even the brain tissue. 4,7,8…”

Section: Introductionmentioning

confidence: 99%

“…However, there is still a significant knowledge gap in understanding traffic-derived magnetite pollution. Magnetite particles in the atmosphere usually originate from various sources including coal combustion 1,19 and traffic emission. 1,3 Beyond that, some minor sources also contribute to the Fe-containing metal oxide particles in urban areas, including natural minerals, domestic sources ( e.g.…”

Section: Introductionmentioning

confidence: 99%

Traffic-derived magnetite pollution in soils along a highway on the Tibetan Plateau

Liu

Zhang

Gui

et al. 2022

Environ. Sci.: Nano

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“…The exogenic magnetite nanoparticles present a different morphology from the endogenic [7]. Significant concerns were raised for increased health risks as these nanoparticles are regarded as highly toxic [8]. They can enter the blood flow and be transported to the brain.…”

Section: Introductionmentioning

confidence: 99%

“…They can enter the blood flow and be transported to the brain. Moreover, they can catalyze the generation of reactive oxygen species in vivo and cause protein modification, lipid peroxidation, or DNA damage [8]. The increased magnetite content in the human brain raises another question about its contribution to the mechanism of thermal or non-thermal interactions with electromagnetic fields in high frequencies.…”

Section: Introductionmentioning

confidence: 99%

Magnetite Particle Presence in the Human Brain: A Computational Dosimetric Study to Emphasize the Need of a Complete Assessment of the Electromagnetic Power Deposition at 3.5 GHz

Vatamanu

Miclăuș

2021

Eng. Technol. Appl. Sci. Res.

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The growing evidence of increased magnetite nanoparticles (both endo- and exo-genic) in the human brain raises the importance of assessing the entire power deposition when electromagnetic waves at GHz frequencies propagate in such tissues. This frequency range corresponds to many popular portable communication devices that emit radiation close to a human's head. At these frequencies, the current dosimetric numerical codes can not accurately compute the magnetic losses part. This is due to the lack of an implemented computational algorithm based on solving the coupled Maxwell and Landau-Lifshitz-Gilbert equations, in the case of magneto-dielectrics, considering eddy currents losses and specific properties of magnetic sub-millimetric particles. This paper focuses on analyzing the limits and the inconsistencies when using commercial dosimetric numerical software to analyze the total absorbed power in brain models having ferrimagnetic content and being exposed to 3.5GHz electromagnetic waves. Magnetic losses computed using Polder’s permeability tensor as constitutive relation lead to unreliable results. However, using such software can provide a preliminary view of the electromagnetic impact of ultra- and super-high frequencies on magnetic-dielectric tissues.

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Separation and Tracing of Anthropogenic Magnetite Nanoparticles in the Urban Atmosphere

Cited by 54 publications

References 65 publications

Structural property and risk assessment of loose deposits in drinking water distribution systems

Structural property and risk assessment of loose deposits in drinking water distribution systems

Traffic-derived magnetite pollution in soils along a highway on the Tibetan Plateau

Magnetite Particle Presence in the Human Brain: A Computational Dosimetric Study to Emphasize the Need of a Complete Assessment of the Electromagnetic Power Deposition at 3.5 GHz

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