Microplastics and nanoplastics: Recent literature studies and patents on their removal from aqueous environment

“…254,255 MP mitigation approaches are classified depending on their removal characteristics, including filtration and separation, capture and surface attachment, and degradation. 256 Biodegradable plastics are an appropriate solution to this global concern because they decompose into carbon dioxide and water in 20−45 days in the presence of enough oxygen, microorganisms, and humidity. 257 Several strategies have been developed to program the lifetime of degradable polyethylene, including the incorporation of weak sites such as carbonyl groups or double bonds into the hydrocarbon backbone or side chains during polymerization.…”

“…Only MPs smaller than 20 μm can enter organs, and MPs in the range of 10 μm could access all organs and cross cell membranes, the blood-brain barrier, and enter the placenta. The potential effects of MPs on human health may be due to their size, shape, chemical composition, concentration, or microbial biofilm growth. , MP mitigation approaches are classified depending on their removal characteristics, including filtration and separation, capture and surface attachment, and degradation . Biodegradable plastics are an appropriate solution to this global concern because they decompose into carbon dioxide and water in 20–45 days in the presence of enough oxygen, microorganisms, and humidity .…”

Tailor-Made Functional Polyolefins of Complex Architectures: Recent Advances, Applications, and Prospects

“…254,255 MP mitigation approaches are classified depending on their removal characteristics, including filtration and separation, capture and surface attachment, and degradation. 256 Biodegradable plastics are an appropriate solution to this global concern because they decompose into carbon dioxide and water in 20−45 days in the presence of enough oxygen, microorganisms, and humidity. 257 Several strategies have been developed to program the lifetime of degradable polyethylene, including the incorporation of weak sites such as carbonyl groups or double bonds into the hydrocarbon backbone or side chains during polymerization.…”

“…Only MPs smaller than 20 μm can enter organs, and MPs in the range of 10 μm could access all organs and cross cell membranes, the blood-brain barrier, and enter the placenta. The potential effects of MPs on human health may be due to their size, shape, chemical composition, concentration, or microbial biofilm growth. , MP mitigation approaches are classified depending on their removal characteristics, including filtration and separation, capture and surface attachment, and degradation . Biodegradable plastics are an appropriate solution to this global concern because they decompose into carbon dioxide and water in 20–45 days in the presence of enough oxygen, microorganisms, and humidity .…”

Tailor-Made Functional Polyolefins of Complex Architectures: Recent Advances, Applications, and Prospects

“…Recently, substantial research interest has been directed to the environmental and health impacts of M/ NPs [32,33]. The number of studies has increased at 30-50% annually in the past five years [34,35]. It could be expected that more research will be directed towards the subject area.…”

Coronas of micro/nano plastics: a key determinant in their risk assessments

“…In addition, there are also primary MNPs, which are specifically manufactured in micro(nano)-size for use in personal care, cosmetics or synthetic textiles, etc. [4]. MP and NP particles are emerging pollutants of increasing concern.…”

“…Under this context, Wastewater Treatment Plants (WWTPs) have been identified as one of the main dominant sources of MPs in freshwater [7]. The MPs found in wastewaters consist for example of microbeads added in peeling lotions and toothpastes and synthetic fibers from textile and clothing [4]. In general terms, studies have indicated that wastewater treatments plants remove the majority of MPs, achieving removal efficiencies of 98-99% [8,9].…”

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