Hanyu Wang scite author profile

In the environment, microplastics are subjected to multiple aging processes; however, information regarding the impact of aging on the environmental behavior of microplastics is still lacking. This study investigated the alteration properties of polystyrene and high-density polyethylene microplastics by heat-activated K2S2O8 and Fenton treatments to improve the understanding of their long-term natural aging in aquatic environments. Our results indicated that the O/C ratio was an alternative parameter to the carbonyl index (CI) to quantitatively describe the surface alteration properties of microplastics. The correlation model of the O/C ratio or CI versus alteration time was developed and compared by natural alteration of microplastics in freshwater samples. Moreover, the regression equation of the equilibrium adsorption capacity of altered microplastics versus the O/C ratio and average size was proposed. This study is the first effort in differentiating the relationships between the alteration properties and alteration time/adsorption capacity of microplastics, which would be helpful for predicting the weathering degree and accumulation of hydrophilic antibiotics onto aged microplastics in aquatic environments. This research develops promising strategies to accelerate the aging reactions using advanced oxidation processes, which would provide further information to assess the microplastic pollution in actual environments.

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Effect of weathering on environmental behavior of microplastics: Properties, sorption and potential risks

Liu

et al. 2020

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Photo aging of polypropylene microplastics in estuary water and coastal seawater: Important role of chlorine ion

et al. 2021

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Hanyu Wang

New Insights into the Aging Behavior of Microplastics Accelerated by Advanced Oxidation Processes

Effect of weathering on environmental behavior of microplastics: Properties, sorption and potential risks

Photo aging of polypropylene microplastics in estuary water and coastal seawater: Important role of chlorine ion

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