Precisely Identifying the Sources of Magnetic Particles by Hierarchical Classification-Aided Isotopic Fingerprinting

Yang, Hang; Yang, Xuezhi; Zhang, Qinghua; Lu, Dawei; Wang, Weichao; Zhang, Huazhou; Yu, Yunbo; Liu, Xian; Zhang, Aiqian; Liu, Qian; Jiang, Guibin

doi:10.1021/acs.est.4c02702

Environ. Sci. Technol.

2024

DOI: 10.1021/acs.est.4c02702

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Precisely Identifying the Sources of Magnetic Particles by Hierarchical Classification-Aided Isotopic Fingerprinting

Hang Yang,

Xuezhi Yang,

Qinghua Zhang

et al.

Abstract: Magnetic particles (MPs), with magnetite (Fe3O4) and maghemite (γ-Fe2O3) as the most abundant species, are ubiquitously present in the natural environment. MPs are among the most applied engineered particles and can be produced incidentally by various human activities. Identification of the sources of MPs is crucial for their risk assessment and regulation, which, however, is still an unsolved problem. Here, we report a novel approach, hierarchical classification-aided stable isotopic fingerprinting, to addres… Show more

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Cited by 2 publications

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Endogenous formation of Fe-bearing particles and their differentiation from exogenous exposure

Huang,

Liu,

Yang

et al. 2024

Journal of Environmental Sciences

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Endogenous formation of Fe-bearing particles and their differentiation from exogenous exposure

Huang,

Liu,

Yang

et al. 2024

Journal of Environmental Sciences

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Low-Consumption and High-Efficiency Isotope Analysis by Microultrasonic Single-Droplet Nebulization Sampling Multicollector Inductively Coupled Plasma Mass Spectrometry

Dong,

Yu,

Dai

et al. 2024

Anal. Chem.

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Metal stable isotopes are increasingly applied in various fields, including planetary science and medical research, highlighting the need for isotope analysis methods capable of handling precious and microvolume samples. This study introduces a novel, low-consumption, high-efficiency isotope analysis method using MC-ICP-MS based on microultrasonic single-droplet nebulization (MUSDN). The proposed MUSDN enables the complete nebulization of microliter-sized droplets, delivering highsensitivity transient analytical signals with a duration of several seconds. Under optimized conditions, MUSDN exhibited significantly enhanced sensitivity compared to conventional pneumatic nebulization, achieving 17-fold and 12-fold improvements for 7 Li and 63 Cu, respectively. The achieved external precisions (2SD) for δ 7 Li and δ 65 Cu were 0.3 and 0.08‰, with single analysis consuming only 1 ng of Li and 2 ng of Cu, respectively. This represents a reduction in sample consumption by 1−2 orders of magnitude compared to conventional PN−MC-ICP-MS while also improving the analysis speed by at least 10-fold due to rapid residual washout. Furthermore, our method demonstrated superior δ 65 Cu analytical precision compared to other high-sensitivity transient analysis methods (0.19‰ with a laser ablation system) with similar sample consumption. Finally, the accuracy of the proposed method was validated through the analysis of geological CRMs, serum CRMs, in-house standard samples, and a series of real serum samples. This novel isotope analysis method provides a promising approach for isotope applications involving precious and microvolume samples.

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Precisely Identifying the Sources of Magnetic Particles by Hierarchical Classification-Aided Isotopic Fingerprinting

Cited by 2 publications

References 69 publications

Endogenous formation of Fe-bearing particles and their differentiation from exogenous exposure

Endogenous formation of Fe-bearing particles and their differentiation from exogenous exposure

Low-Consumption and High-Efficiency Isotope Analysis by Microultrasonic Single-Droplet Nebulization Sampling Multicollector Inductively Coupled Plasma Mass Spectrometry

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