Risk for the release of an enormous amount of nanoplastics and microplastics from partially biodegradable polymer blends

Nanoplastics and microplastics (NMPs) in natural environments are an emerging global concern and understanding their formation processes from macro-plastic items during degradation/weathering is critical for predicting their quantities and impacts in different ecological systems. Here, we show the r...

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Bibliographic Details
Published in:Green chemistry : an international journal and green chemistry resource : GC 2022, Vol.24 (22), p.8742-875
Main Authors: Wei, Xin-Feng, Hedenqvist, Mikael S, Zhao, Luyao, Barth, Andreas, Yin, Haiyan
Format: Article
Language:English
Subjects:
Aquatic environment
Biodegradability
Biodegradable polymer blends
Biodegradable polymers
Biodegradation
Ecological systems
Emissions
Enzymatic hydrolysis
Formation process
Green chemistry
Impact prediction
Islands morphology
matrix
Microplastic
Microplastic particles
Microplastics
Miscibility
Morphology
Nanoplastics
Natural environments
Non-biodegradable polymers
Plastic debris
Plastic pollution
Polyethylenes
Polymer blends
Polymers
Polypropylene
Polypropylenes
Risk
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Summary:Nanoplastics and microplastics (NMPs) in natural environments are an emerging global concern and understanding their formation processes from macro-plastic items during degradation/weathering is critical for predicting their quantities and impacts in different ecological systems. Here, we show the risk of enormous emissions of NMPs from polymer blends, a source that has not been specifically studied, by taking immiscible (most common case) partially biodegradable polymer blends as an example. The blends have the common "sea-island" morphology, where the minor non-biodegradable polymer phase (polyethylene and polypropylene) is dispersed as NMP particles in the major continuous biodegradable matrix (poly( -caprolactone)). The dispersed NMP particles with spherical and rod-like shapes are gradually liberated and released to the surrounding aquatic environment during the biodegradation of the matrix polymer. Strikingly, the number of released NMPs from the blend is very high. The blend film surface erosion process, induced by enzymatic hydrolysis of the matrix, involving fragmentation, hole formation, and hole wall detachment, was systematically investigated to reveal the NMP release process. Our findings present direct evidence and detailed insights into the high risk of emissions of NMPs from partially biodegradable immiscible polymer blends with a widespread "sea-island" morphology. Efforts from authorities, developers, manufacturers, and the public are needed to avoid the use of non-biodegradable polymers in blends with biodegradable polymers. Non-biodegradable polymers are released as microplastics into the environments during the biodegradation of partially biodegradable polymer blends.
ISSN:1463-9262
1463-9270
1463-9270
DOI:10.1039/d2gc02388a