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The role of humic substances’ hydrophobicity in heterogeneous adsorption onto microplastics: Insights from two-dimensional correlation hydrophilic interaction chromatography
Summary
Researchers investigated how the hydrophobic properties of humic substances influence their adsorption onto pristine and aged polyethylene microplastics. Using chromatography techniques, they found that more hydrophobic humic molecules preferentially adsorb onto microplastics, with this trend being stronger for aged plastics and under acidic conditions. The study highlights the critical role of hydrophobicity in determining how natural organic matter interacts with microplastics in aquatic environments.
The heterogeneous composition of humic substances (HS) complicates understanding their interactions with microplastics (MPs), which is critical for assessing the environmental roles of MPs in aquatic systems. This study investigated the adsorption behavior of HS onto pristine and aged polyethylene (PE) MPs, with a focus on how hydrophobic properties influence these interactions. Hydrophilic interaction chromatography (HILIC) revealed preferential adsorption of HS molecules with higher log K ow values onto MPs compared to those with lower values. This trend was more pronounced for aged MPs than pristine MPs and was stronger under acidic conditions. Two-dimensional correlation HILIC (2D-Co-HILIC) provided further insights, revealing sequential adsorption of HS subfractions based on hydrophobicity. For pristine MPs, Freundlich adsorption affinity (K F ) values followed the log K ow order of 3.2 > 3.4 > 2.5, with corresponding K F values of 4.64 ± 0.12 > 0.71 ± 0.05 > 0.70 ± 0.08 (Abs/g)(Abs) 1/n . For aged MPs, the order was 3.2 > 3.4 > 3.0 > 2.5, with K F values of 5.44 ± 0.07 > 5.02 ± 0.06 > 0.77 ± 0.07 > 0.23 ± 0.05. Hydrophobic interactions played a dominant role, particularly for aged MPs, where greater competition among HS molecules for adsorption sites occurred. Changes in the molecular weight of residual HS, inferred from fluorescence component ratios, indicated molecular size as a secondary factor in adsorption. This study highlights the critical role of hydrophobicity in HS-MP interactions and calls for further research into how these interactions impact the environmental behavior of HS and MPs in aquatic systems. • Hydrophobicity drives selective adsorption of humic substances (HS) onto MPs. • 2D-Co-HILIC reveals sequential adsorption of HS fractions by hydrophobicity. • Molecular size plays a secondary role in HS adsorption. • HS adsorption dynamics on MPs vary significantly with surface aging and pH.
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