Nanomaterials for Microplastic Removal from Wastewater: Current State of the Art Nanomaterials and Future Prospects

Abstract: Microplastics (MPs) and nanoplastics (NPs) infiltrate aquatic environments at an alarming rate, posing a serious threat to aquatic ecosystems and human health. Wastewater treatment plants are significant sources of MPs/NPs contamination in the aquatic environment, since they are inadequate at removing these MPs/NPs. This calls for the development and application of new technologies for MPs/NPs removal. Recent studies have demonstrated that nanomaterials (NMs) are effective in the removal of MPs from wastewater… Show more

“…Thus, the number of microplastics annually released into rivers via WWTP effluents in Germany was estimated at 7 × 10 12 (Schmidt et al, 2020), and a combined daily release of 5 × 10 8 -10 9 microplastics via treated effluent for three wastewater treatment plants in the United States (Conley et al, 2019). It is noteworthy that the conventional treatment processes (i.e., stirring, mixing, and pumping) used in the majority of wastewater treatment plants can be a potential source for plastic fragmentation, affecting the size of microplastics and thus releasing substantially larger amounts of much smaller plastic particles into the aquatic environment than assumed (Gangula et al, 2023;Indhur et al, 2023;Monira et al, 2023).…”

Micro- and nanoplastics in freshwater ecosystems—interaction with and impact upon bacterivorous ciliates

“…Thus, the number of microplastics annually released into rivers via WWTP effluents in Germany was estimated at 7 × 10 12 (Schmidt et al, 2020), and a combined daily release of 5 × 10 8 -10 9 microplastics via treated effluent for three wastewater treatment plants in the United States (Conley et al, 2019). It is noteworthy that the conventional treatment processes (i.e., stirring, mixing, and pumping) used in the majority of wastewater treatment plants can be a potential source for plastic fragmentation, affecting the size of microplastics and thus releasing substantially larger amounts of much smaller plastic particles into the aquatic environment than assumed (Gangula et al, 2023;Indhur et al, 2023;Monira et al, 2023).…”

Micro- and nanoplastics in freshwater ecosystems—interaction with and impact upon bacterivorous ciliates

2D nanomaterial for microplastic Removal: A critical review