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Original research — experimental, observational, or case-control study. Direct primary evidence.
Food & Water
Remediation
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Potential of Advanced Oxidation as Pretreatment for Microplastics Biodegradation
Separations2023
49 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 50
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Kristina Bule Možar,
Martina Miloloža
Dajana Kučić Grgić,
Kristina Bule Možar,
Dajana Kučić Grgić,
Martina Miloloža,
Martina Miloloža,
Dajana Kučić Grgić,
Matija Cvetnić,
Martina Miloloža,
Martina Miloloža,
Kristina Bule Možar,
Martina Miloloža,
Martina Miloloža,
Martina Miloloža,
Kristina Bule Možar,
Martina Miloloža,
Martina Miloloža,
Dajana Kučić Grgić,
Martina Miloloža
Martina Miloloža
Martina Miloloža
Martina Miloloža
Martina Miloloža
Martina Miloloža
Martina Miloloža
Martina Miloloža,
Martina Miloloža
Martina Miloloža
Martina Miloloža
Martina Miloloža
Martina Miloloža,
Martina Miloloža
Martina Miloloža
Dajana Kučić Grgić,
Matija Cvetnić,
Martina Miloloža,
Matija Cvetnić,
Martina Miloloža,
Martina Miloloža,
Šime Ukić,
Martina Miloloža
Martina Miloloža
Martina Miloloža
Martina Miloloža,
Matija Cvetnić,
Dajana Kučić Grgić,
Martina Miloloža,
Kristina Bule Možar,
Martina Miloloža,
Matija Cvetnić,
Dajana Kučić Grgić,
Dajana Kučić Grgić,
Matija Cvetnić,
Dajana Kučić Grgić,
Martina Miloloža,
Viktorija Martinjak,
Hrvoje Kušić,
Viktorija Martinjak,
Tomislav Bolanča,
Tomislav Bolanča,
Viktorija Martinjak,
Viktorija Martinjak,
Viktorija Martinjak,
Tomislav Bolanča,
Tomislav Bolanča,
Martina Miloloža
Šime Ukić,
Šime Ukić,
Dajana Kučić Grgić,
Martina Miloloža
Hrvoje Kušić,
Viktorija Martinjak,
Tomislav Bolanča,
Martina Miloloža,
Martina Miloloža,
Hrvoje Kušić,
Martina Miloloža,
Tomislav Bolanča,
Hrvoje Kušić,
Tomislav Bolanča,
Matija Cvetnić,
Matija Cvetnić,
Matija Cvetnić,
Matija Cvetnić,
Matija Cvetnić,
Šime Ukić,
Šime Ukić,
Šime Ukić,
Martina Miloloža
Martina Miloloža
Tomislav Bolanča,
Tomislav Bolanča,
Tomislav Bolanča,
Tomislav Bolanča,
Martina Miloloža
Dajana Kučić Grgić,
Dajana Kučić Grgić,
Matija Cvetnić,
Hrvoje Kušić,
Tomislav Bolanča,
Matija Cvetnić,
Martina Miloloža,
Tomislav Bolanča,
Tomislav Bolanča,
Hrvoje Kušić,
Hrvoje Kušić,
Matija Cvetnić,
Šime Ukić,
Martina Miloloža
Tomislav Bolanča,
Martina Miloloža
Šime Ukić,
Šime Ukić,
Šime Ukić,
Martina Miloloža,
Martina Miloloža,
Tomislav Bolanča,
Hrvoje Kušić,
Tomislav Bolanča,
Dajana Kučić Grgić,
Dajana Kučić Grgić,
Tomislav Bolanča,
Tomislav Bolanča,
Šime Ukić,
Tomislav Bolanča,
Tomislav Bolanča,
Tomislav Bolanča,
Hrvoje Kušić,
Hrvoje Kušić,
Hrvoje Kušić,
Martina Miloloža,
Martina Miloloža
Tomislav Bolanča,
Tomislav Bolanča,
Dajana Kučić Grgić,
Dajana Kučić Grgić,
Matija Cvetnić,
Dajana Kučić Grgić,
Dajana Kučić Grgić,
Hrvoje Kušić,
Tomislav Bolanča,
Hrvoje Kušić,
Hrvoje Kušić,
Šime Ukić,
Dajana Kučić Grgić,
Dajana Kučić Grgić,
Dajana Kučić Grgić,
Šime Ukić,
Šime Ukić,
Tomislav Bolanča,
Tomislav Bolanča,
Šime Ukić,
Tomislav Bolanča,
Martina Miloloža
Martina Miloloža,
Tomislav Bolanča,
Dajana Kučić Grgić,
Tomislav Bolanča,
Matija Cvetnić,
Tomislav Bolanča,
Dajana Kučić Grgić,
Tomislav Bolanča,
Martina Miloloža,
Šime Ukić,
Martina Miloloža
Summary
This review assessed the potential of advanced oxidation processes as pretreatment steps to enhance microplastic biodegradation, finding that UV, ozone, and Fenton-based treatments can weaken polymer structures and make them more susceptible to subsequent biological breakdown.
In the last two decades, microplastics (MP) have been identified as an emerging environmental pollutant. Due to their small size, MP particles may easily enter the food chain, where they can have adverse effects on organisms and the environment in general. The common methods for the removal of pollutants from the environment are not fully effective in the elimination of MP; thus, it is necessary to find a more suitable treatment method(s). Among the various approaches tested, biodegradation is by far the most environmentally friendly and economically acceptable remediation approach. However, it has serious drawbacks, generally related to the rather low removal rate and often insufficient efficiency. Therefore, it would be beneficial to use some of the less economical but more efficient methods as pretreatment prior to biodegradation. Such pretreatment would primarily serve to increase the roughness and hydrophilicity of the surface of MP, making it more susceptible to bioassimilation. This review focuses on advanced oxidation processes (AOPs) as treatment methods that can enhance the biodegradation of MP particles. It considers MP particles of the six most commonly used plastic polymers, namely: polyethylene, polypropylene, polystyrene, polyvinyl chloride, polyethylene terephthalate and polyurethane. The review highlights organisms with a high potential for biodegradation of selected MP particles and presents the potential benefits that AOP pretreatment can provide for MP biodegradation.