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Salt-Induced Adsorption and Rupture of Liposomes on Microplastics

Yu Fukunaga, Mohamad Zandieh, Yibo Liu, Juewen Liu

2023Langmuir11 citationsDOI

Abstract

Microplastics have attracted considerable attention because of concerns regarding their environmental risks to living systems. The interaction between the lipid bilayer and microplastics is important for examining the potential harm to biological membranes in the presence of microplastics. In addition, membrane coatings may change the surface and colloidal properties of microplastics. Herein, phosphatidylcholine (PC) lipids, whose headgroup is most common in cell membranes, were used as model lipids. The adsorption and rupture of PC liposomes on microplastics were systematically studied. We found that divalent metal ions, such as Mg 2+ and Ca 2+, facilitate liposome adsorption onto microplastics and induce 40–55% liposome leakage at 2.5 mM. In contrast, to achieve a similar effect, 300 mM Na + was required. Adsorption and rupture followed the same metal concentration requirements, suggesting that liposome adsorption was the rate-limiting step. After adsorption with liposomes, microplastics became more hydrophilic and were better dispersed in water. A similar behavior was observed for all five types of tested microplastics, including PP, PE, PVC, PET, and PS. Leakage also occurred in ocean water. This study provides fundamental insights into the interactions between liposomes and microplastics and has implications for the colloidal and transport properties of microplastics.

Topics & Concepts

MicroplasticsLiposomeAdsorptionChemistryMembraneEnvironmental chemistryLipid bilayerChemical engineeringOrganic chemistryBiochemistryEngineeringMicroplastics and Plastic PollutionRecycling and Waste Management TechniquesNanoparticles: synthesis and applications
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