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Sequential Isolation of Microplastics and Nanoplastics in Environmental Waters by Membrane Filtration, Followed by Cloud-Point Extraction

Analytical Chemistry 2021 124 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Yujian Lai, Yujian Lai, Yujian Lai, Sujuan Yu, Yujian Lai, Yujian Lai, Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Sujuan Yu, Sujuan Yu, Xiaoxia Zhou, Xiaoxia Zhou, Xiaoxia Zhou, Xiaoxia Zhou, Qingcun Li, Qingcun Li, Yujian Lai, Sujuan Yu, Yujian Lai, Yujian Lai, Yujian Lai, Yujian Lai, Lijie Dong, Jingfu Liu Lijie Dong, Lijie Dong, Lijie Dong, Lijie Dong, Xing Liu, Xing Liu, Xiaoxia Zhou, Xiaoxia Zhou, Qingcun Li, Xiaoxia Zhou, Qingcun Li, Qingcun Li, Sujuan Yu, Lijie Dong, Lijie Dong, Sujuan Yu, Yujian Lai, Sujuan Yu, Jingfu Liu Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Sujuan Yu, Sujuan Yu, Sujuan Yu, Qingcun Li, Qingcun Li, Peng Li, Sujuan Yu, Qingcun Li, Jingfu Liu Xiaoxia Zhou, Xiaoxia Zhou, Qingcun Li, Qingcun Li, Yujian Lai, Sujuan Yu, Xiaoxia Zhou, Qingcun Li, Qingcun Li, Qingcun Li, Sujuan Yu, Xing Liu, Jingfu Liu Qingcun Li, Jingfu Liu Jingfu Liu Qingcun Li, Qingcun Li, Jingfu Liu Sujuan Yu, Yujian Lai, Jingfu Liu Xiaoxia Zhou, Sujuan Yu, Yujian Lai, Sujuan Yu, Yujian Lai, Xiaoxia Zhou, Jingfu Liu Ziwei Yao, Yujian Lai, Yujian Lai, Yujian Lai, Qingcun Li, Sujuan Yu, Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Lijie Dong, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Xiaoxia Zhou, Xiaoxia Zhou, Sujuan Yu, Xiaoxia Zhou, Sujuan Yu, Xiaoxia Zhou, Xiaoxia Zhou, Xiaoxia Zhou, Sujuan Yu, Sujuan Yu, Xiaoxia Zhou, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Jingfu Liu Jingfu Liu Jingfu Liu Sujuan Yu, Sujuan Yu, Jingfu Liu Sujuan Yu, Jingfu Liu Jingfu Liu Sujuan Yu, Jingfu Liu Xing Liu, Xing Liu, Xing Liu, Xing Liu, Xiaoxia Zhou, Xiaoxia Zhou, Jingfu Liu Jingfu Liu Ziwei Yao, Ziwei Yao, Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Yujian Lai, Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu

Summary

Researchers developed a two-step method combining membrane filtration and cloud-point extraction to sequentially isolate microplastics and nanoplastics from water, achieving over 90% recovery for MPs on membrane filters and over 93% recovery for NPs in the filtrate for subsequent Py-GC/MS analysis.

Polymers

PMMA PS

Respective detection of microplastics (MPs) and nanoplastics (NPs) is of great importance for their different environmental behaviors and toxicities. Using spherical polystyrene (PS) and poly(methyl methacrylate) (PMMA) plastics as models, the efficiency for sequential isolation of MPs and NPs by membrane filtration and cloud-point extraction was evaluated. After filtering through a glass membrane (1 μm pore size), over 90.7% of MPs were trapped on the membrane, whereas above 93.0% of NPs remained in the filtrate. The collected MPs together with the glass membrane were frozen in liquid nitrogen, ground, and suspended in water (1 mL) and subjected to pyrolysis-gas chromatography-mass spectrometry (Py-GC/MS) determination. The NPs in the filtrate were concentrated by cloud-point extraction, heated at 190 °C to degrade the extractant, and then determined by Py-GC/MS. For MPs and NPs spiked in pure water, the method detection limits are in the range of 0.05-1.9 μg/L. The proposed method is applied to analyze four real water samples, with the detection of 1.6-7.6 μg/L PS MPs and 0.6 μg/L PMMA MPs in three samples, and spiked recoveries of 75.0-102% for MPs and 67.8-87.2% for NPs. Our method offers a novel sample pretreatment approach for the respective determination of MPs and NPs.

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