Aging assessment of microplastics (LDPE, PET and uPVC) under urban environment stressors

The changes in the chemical structure, surface morphology and crystallinity are reported for three different polymers (LDPE, PET and uPVC) in microplastic form, after being artificially exposed to different aging agents that can affect microplastics in urban environments: ozone, UV-C, and solar radi...

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Veröffentlicht in:The Science of the total environment 2021-11, Vol.796, p.148914-148914, Article 148914
Hauptverfasser: Miranda, Mariana N., Sampaio, Maria J., Tavares, Pedro B., Silva, Adrián M.T., Pereira, M. Fernando R.
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Sprache:eng
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Zusammenfassung:The changes in the chemical structure, surface morphology and crystallinity are reported for three different polymers (LDPE, PET and uPVC) in microplastic form, after being artificially exposed to different aging agents that can affect microplastics in urban environments: ozone, UV-C, and solar radiation. In parallel to the laboratory experiments, the microplastics were exposed to real weathering conditions for three-months in a building rooftop located in the city of Porto (Portugal). By analysing the (virgin and aged) microplastic samples periodically through ATR-FTIR spectroscopy and estimating the Carbonyl Index, it was possible to sketch the aging degree evolution through time and identify the most aggressive agents for each polymer regarding the changes in their chemical structure. SEM and XRD measurements allowed to complement the ATR-FTIR results, giving a more complete picture of the effects of each treatment on each polymer and suggesting that ATR-FTIR measurements are not sufficient to correctly evaluate the aging degree of microplastics. The changes observed in the microplastic particles studied support the theory that microplastics in the environment undergo aging and change their characteristics through time, potentially affecting their behavior and intensifying their impacts. [Display omitted] •The three polymers studied were affected by the aging treatments applied.•Ozone and UV-C were confirmed to be relevant urban environment stressors for MPP.•Substantial aging occurred when MPP were exposed to urban weathering (3 months).•The Carbonyl Index was used as a metric to assess LDPE and uPVC aging through time.•XRD and SEM gave valuable complementary information to ATR-FTIR spectroscopy.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.148914