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Interaction of metal oxide nanoparticles with microplastics: Impact of weathering under riverine conditions

Water Research 2020 76 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 40 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Gopala Krishna Darbha Nisha Singh, Nisha Singh, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Johannes Lützenkirchen, Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Ekta Tiwari, Nisha Singh, Nitin Khandelwal, Ekta Tiwari, Ekta Tiwari, Gopala Krishna Darbha Nitin Khandelwal, Nisha Singh, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nabanita Naskar, Gopala Krishna Darbha Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Nisha Singh, Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nitin Khandelwal, Susanta Lahiri, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Johannes Lützenkirchen, Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha

Summary

Researchers investigated the sorption kinetics and mechanisms by which cerium oxide (CeO2) nanoparticles adsorb onto pristine and mechanically roughened microplastics under simulated riverine weathering conditions. They found that sorption followed pseudo-second order kinetics, with roughened microplastics achieving equilibrium faster, and that surface roughness significantly altered nanoparticle uptake capacity, with implications for how microplastics facilitate nanoparticle transport in river systems.

Study Type Environmental

The ubiquitous distribution of microplastics (MPs) leads to inevitable interactions with the toxic pollutants present in the environment including metal-oxide nanoparticles. This study investigates the interaction of CeO nanoparticles (CeNPs) with MPs generated from a disposable plastic container. Further, rough MPs (R-MPs), generated through mechanical abrasion of MPs with sand, were used to probe the impact of roughness. To understand the sorption kinetics and underlying interaction processes, batch experiments were carried out. The results distinctly indicate that CeNPs sorption occurred on MPs surfaces and was consistent with the pseudo-second order kinetics model. For pristine MPs, the sorption capacity was as high as 12.9 mg/g while for R-MPs kinetic equilibrium was achieved faster and an enhanced sorption capacity (13.4 mg/g) was identified. A rise in sorption with an increase in salinity was noted while pH and humic acid exhibited a negative correlation. The observed interactions were attributed to the aggregation profile and surface charge of CeNPs and MPs. Surprisingly, CeNPs also got loaded onto MPs in non-agitated and undisturbed conditions. The sorption process was influenced by the type of aqueous matrix and the sorption capacity at equilibrium followed the trend: distilled water> synthetic freshwater> river water. FTIR spectra, zeta potential, SEM imaging, and elemental mapping revealed electrostatic interaction as the dominant mechanism. This work contributes towards the knowledge gap on the environmental risk of MPs.

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