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Protocol for the production of micro- and nanoplastic test materials

Microplastics and Nanoplastics 2023 31 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 60 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Elena M. Höppener, Ingeborg M. Kooter Kalouda Grigoriadi, Arjen Boersma, Luke A. Parker, Luke A. Parker, Elena M. Höppener, Kalouda Grigoriadi, Luke A. Parker, Elena M. Höppener, Elena M. Höppener, Merel G. A. Nooijens, Merel G. A. Nooijens, Luke A. Parker, Merel G. A. Nooijens, Merel G. A. Nooijens, Luke A. Parker, Luke A. Parker, Elena M. Höppener, Andrea M. Brunner, Merel G. A. Nooijens, Elena M. Höppener, Ingeborg M. Kooter Edward F. van Amelrooij, Edward F. van Amelrooij, Luke A. Parker, Elena M. Höppener, Andrea M. Brunner, Luke A. Parker, Edward F. van Amelrooij, Edward F. van Amelrooij, Merel G. A. Nooijens, Luke A. Parker, Ingeborg M. Kooter Luke A. Parker, Elena M. Höppener, Sieger Henke, Elena M. Höppener, Elena M. Höppener, Elena M. Höppener, Luke A. Parker, Luke A. Parker, Edward F. van Amelrooij, Sieger Henke, Sieger Henke, Sieger Henke, Sieger Henke, Ingeborg M. Kooter Edward F. van Amelrooij, Elena M. Höppener, Sieger Henke, Ingeborg M. Kooter Ingeborg M. Kooter Ingeborg M. Kooter Sieger Henke, Kalouda Grigoriadi, Andrea M. Brunner, Luke A. Parker, Luke A. Parker, Ingeborg M. Kooter Arjen Boersma, Merel G. A. Nooijens, Ingeborg M. Kooter Merel G. A. Nooijens, Merel G. A. Nooijens, Merel G. A. Nooijens, Luke A. Parker, Luke A. Parker, Ingeborg M. Kooter Arjen Boersma, Andrea M. Brunner, Andrea M. Brunner, Ingeborg M. Kooter Ingeborg M. Kooter Ingeborg M. Kooter Arjen Boersma, Ingeborg M. Kooter

Summary

Scientists created a standardized protocol for producing well-characterized micro and nanoplastic test materials from polypropylene and PVC for use in health research. Current studies often use commercially available plastic beads that do not resemble real-world microplastics, making results hard to interpret. Having realistic, standardized test materials will improve the quality and comparability of future research on microplastic health effects.

Polymers

PP PVC

Abstract Micro- and nanoplastics (MNP) are ubiquitous, but little is known about the risks they pose to human health. Currently available data are of limited use for developing relevant risk assessments due to poor quality control, the lack of a standardised approach to particle characterisation and environmental analysis, and the use of test materials that do not reflect those found in the environment. A set of well-characterised MNP test materials would greatly alleviate this. Here, we present a robust method to produce, fractionate and characterise such test materials of PP and PVC. Initial size reduction of commercial powders or pellets to 500 µm was performed using a centrifugal mill under cryogenic conditions. Further ball-milling between room temperature and -50 °C in 1-propanol was then performed to reach the final particle sizes. Fractionation into size ranges of < 1, 1–5, 5–10, 10–30, 90–180 and 180–300 µm was performed by sedimentation and filtration. Characterisation of the reference materials through SLS, SEM–EDX, XRF and TGA demonstrated that the fractions were of the desired size and levels of contamination from the procedure were < 1 wt%. Stability testing in both 1-propanol and 0.05 wt% BSA solution showed that whilst some agglomeration occurred during storage in 1-propanol the suspensions were stable in BSA over 9 months and some of the previous agglomeration was reversed.

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