Swelling-Induced Fragmentation and Polymer Leakage of Nanoplastics in Seawater
Environmental Science & Technology2022
24 citations
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Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Yujian Lai,
Yujian Lai,
Sujuan Yu,
Yujian Lai,
Yujian Lai,
Xueying Sheng,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Sujuan Yu,
Sujuan Yu,
Peng Li,
Peng Li,
Xueying Sheng,
Qingcun Li,
Qingcun Li,
Yujian Lai,
Yujian Lai,
Sujuan Yu,
Yujian Lai,
Yujian Lai,
Yujian Lai,
Yujian Lai,
Lijie Dong,
Jingfu Liu
Lijie Dong,
Lijie Dong,
Lijie Dong,
Lijie Dong,
Qingcun Li,
Xueying Sheng,
Qingcun Li,
Xueying Sheng,
Qingcun Li,
Xueying Sheng,
Xueying Sheng,
Lijie Dong,
Lijie Dong,
Sujuan Yu,
Sujuan Yu,
Yujian Lai,
Sujuan Yu,
Jingfu Liu
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Xueying Sheng,
Xueying Sheng,
Peng Li,
Zhineng Hao,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Qingcun Li,
Qingcun Li,
Xueying Sheng,
Xueying Sheng,
Zhineng Hao,
Sujuan Yu,
Qingcun Li,
Peng Li,
Qingcun Li,
Sujuan Yu,
Qingcun Li,
Peng Li,
Yujian Lai,
Qingcun Li,
Sujuan Yu,
Jingfu Liu
Qingcun Li,
Qingcun Li,
Peng Li,
Yujian Lai,
Xueying Sheng,
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Qingcun Li,
Qingcun Li,
Qingcun Li,
Xueying Sheng,
Jingfu Liu
Yujian Lai,
Peng Li,
Yujian Lai,
Jingfu Liu
Jingfu Liu
Zhineng Hao,
Yujian Lai,
Qingcun Li,
Yujian Lai,
Sujuan Yu,
Zhineng Hao,
Yujian Lai,
Jingfu Liu
Sujuan Yu,
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Lijie Dong,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Zhineng Hao,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Zhineng Hao,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Zhineng Hao,
Zhineng Hao,
Jingfu Liu
Jingfu Liu
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Yujian Lai,
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Summary
Researchers tracked polystyrene nanoplastics in seawater over 29 days under simulated sunlight and found that light accelerates aggregation, while also inducing swelling and fragmentation of particles and leaching of polymer components, complicating predictions of nanoplastic fate and risk in marine environments.
Nanoplastics (NPs) have been successively detected in different environmental matrixes and have aroused great concern worldwide. However, the fate of NPs in real environments such as seawater remains unclear, impeding their environmental risk assessment. Herein, multiple techniques were employed to monitor the particle number concentration, size, and morphology evolution of polystyrene NPs in seawater under simulated sunlight over a time course of 29 days. Aggregation was found to be a continuous process that occurred constantly and was markedly promoted by light irradiation. Moreover, the occurrence of NP swelling, fragmentation, and polymer leaching was evidenced by both transmission electron microscopy and scanning electron microscopy techniques. The statistical results of different transformation types suggested that swelling induces fragmentation and polymer leakage and that light irradiation plays a positive but not decisive role in this transformation. The observation of fragmentation and polymer leakage of poly(methyl methacrylate) and poly(vinyl chloride) NPs suggests that these transformation processes are general for NPs of different polymer types. Facilitated by the increase of surface functional groups, the ions in seawater could penetrate into NPs and then stretch the polymer structure, leading to the swelling phenomenon and other transformations.