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61,005 resultsShowing papers similar to Innovative solutions for the removal of emerging microplastics from water by utilizing advanced techniques
ClearTechnologies to eliminate microplastic from water: Current approaches and future prospects
This review surveys the different technologies available for removing microplastics from water, from basic filtration to advanced methods like magnetic separation and electrochemical treatment. Conventional approaches struggle with very small particles, while newer techniques are more effective but expensive and energy-intensive. Biological methods using bacteria, fungi, and algae offer a more eco-friendly alternative but need further development.
Removal of microplastics in water: Technology progress and green strategies
Researchers reviewed existing technologies for removing microplastics from water, including filtration, magnetic separation, chemical coagulation, and biodegradation. Each method has significant trade-offs — filtration is costly, chemical approaches risk secondary pollution, and biological methods are slow — pointing to the need for integrated, environmentally friendly strategies that combine multiple approaches.
Review and future outlook for the removal of microplastics by physical, biological and chemical methods in water bodies and wastewaters
This review compares physical, biological, and chemical methods for removing microplastics from water and wastewater, including newer approaches like advanced membranes, bacterial degradation, and electrochemical treatment. Each method has trade-offs between removal efficiency, cost, and environmental impact, and no single technique currently solves the problem completely. The review emphasizes that developing effective microplastic removal technology is urgent for protecting both ecosystems and human drinking water supplies.
Removal of Microplastic Contaminants from Aquatic Environment
This review examines technologies for removing microplastics from aquatic environments, covering physical, chemical, and biological treatment methods and their relative effectiveness. Identifying and improving removal strategies is urgent because microplastics are now found throughout drinking water sources, oceans, and freshwater systems, posing risks to wildlife and human health.
Microplastics in aquatic systems: An in-depth review of current and potential water treatment processes
This review provides a detailed examination of microplastic contamination in aquatic systems and evaluates current and emerging water treatment technologies for their removal. Researchers assessed methods ranging from conventional coagulation and filtration to advanced techniques like membrane bioreactors and electrochemical processes. The study concludes that while no single technology fully eliminates microplastics, combining multiple treatment approaches offers the most promising path forward.
Occurrence and Control of Microplastics and Emerging Technological Solutions for Their Removal in Freshwaters: A Comprehensive Review
This review examines the occurrence of microplastics in freshwater ecosystems and evaluates current and emerging technologies for their removal, including advanced filtration, biodegradable plastic alternatives, and plastic-to-fuel conversion. Researchers found that the complete removal of microplastics remains an unsolved challenge, complicated by inconsistent detection methods across studies. The study emphasizes the urgent need for standardized measurement techniques and coordinated global strategies to address freshwater microplastic pollution.
Study of Advanced Techniques for Inquisition, Segregation and Removal of Microplastics from Water Streams: Current Insights and Future Directions
This review surveys the full toolkit of methods used to detect, separate, and remove microplastics from water and wastewater, covering spectroscopic, microscopic, and chromatographic detection alongside physical, chemical, and biological removal strategies. It highlights that no single approach is sufficient and that combining methods — including emerging microfluidic and enzymatic techniques — will be necessary to effectively tackle microplastic contamination in water systems.
Removal of nanoplastics in water treatment processes: A review
This review examines technologies for removing nanoplastics from water, noting that conventional treatment processes effective for larger plastics often fail to capture these tiny particles. Researchers evaluated emerging methods including microbial degradation, membrane filtration, and photocatalysis, finding that combined approaches offer the best removal rates. The study highlights that more research is needed to develop practical, large-scale solutions for nanoplastic contamination in drinking water and wastewater.
Innovative technologies for removal of micro plastic: A review of recent advances
Researchers reviewed emerging technologies for removing microplastics from wastewater, covering filtration, coagulation, biological treatment, and other methods used at treatment plants. The review highlights which approaches show the most promise and calls for broader adoption and improved standardization so that microplastics are more consistently captured before they reach rivers, lakes, and oceans.
Current status of microplastics and nanoplastics removal methods: Summary, comparison and prospect
This review comprehensively summarized and compared current methods for removing micro- and nanoplastics from water, covering physical, chemical, and biological approaches while identifying key challenges and future directions for improving removal efficiency.
Microplastics in water: types, detection, and removal strategies
This review covers the different types of microplastics found in water, methods used to detect them, and strategies for removing them from water sources. Microplastics enter water systems from both industrial sources and the breakdown of larger plastic waste, posing threats to aquatic life and potentially human health. The authors evaluate removal techniques including filtration, chemical treatment, and biological approaches that could help clean contaminated water.
Strategies for the Remediation of Micro- and Nanoplastics from Contaminated Food and Water: Advancements and Challenges
This review summarizes existing research on methods for removing micro- and nanoplastics from contaminated food and water, including filtration, chemical treatment, and biological approaches using microorganisms. While several promising techniques exist, the complexity of real-world plastic pollution makes it difficult to scale these solutions, and more cross-disciplinary research is needed to protect food and water safety.
Microplastic removal via physical and chemical methods
This review summarizes physical and chemical methods for removing microplastics from water, including filtration, coagulation, magnetic separation, and photocatalytic degradation. Improving removal efficiency is critical for protecting drinking water supplies and reducing the amount of microplastic that aquatic organisms and humans are exposed to.
Microplastics remediation in aqueous systems: Strategies and technologies
This review assessed strategies and technologies for removing microplastics from aquatic environments, comparing coagulation-flocculation, membrane filtration, magnetic separation, photocatalysis, and biological degradation approaches in terms of efficiency, scalability, and cost for both wastewater and natural water treatment.
Emerging Technology and Trends to Remove Micro- and Nanoplastics in Aquatic Media
Scientists reviewed 38 technologies designed to remove tiny plastic particles (called microplastics and nanoplastics) from water sources like rivers, lakes, and oceans. These microscopic plastic pieces can end up in our drinking water and food chain, potentially affecting human health. The researchers found that while many removal technologies exist, most are still being tested and need more development and funding to work on a large scale.
Removal of Micro and Nanoplastics from Water Using Magnetic Nanoparticles: A Review
This review evaluates the use of magnetic nanoparticles as a technology for removing micro- and nanoplastics from water. Researchers found that magnetic nanoparticles can effectively capture plastic particles through surface interactions and be easily separated from water using magnets. The study suggests this approach offers a promising and energy-efficient method for cleaning microplastic-contaminated water, though challenges remain in scaling it for real-world applications.
Research Progress of Microplastics Removal Technology in Water Environment
This review examined recent advances in microplastic removal technologies for water environments, addressing the significant risks posed by MPs' widespread origins, inadequate control, and resistance to degradation. Various treatment technologies were assessed for their efficiency in eliminating microplastic pollution from water systems.
Insight into the removal of nanoplastics and microplastics by physical, chemical, and biological techniques
This review covers the health threats of nano- and microplastics in water, which can cause tissue damage, reproductive problems, neurological disorders, and DNA damage in living organisms. Traditional water treatment methods fail to remove these tiny particles effectively, so the paper evaluates upgraded physical, chemical, and biological treatment approaches and hybrid techniques designed specifically to filter out small plastic debris.
Catalytic approaches for the removal of microplastics from water: Recent advances and future opportunities
Researchers reviewed catalytic methods — including biological processes, advanced oxidation, and hydrolysis — for breaking down or removing microplastics from water, highlighting promising progress while noting that no single approach yet works efficiently at the scale needed for real-world water treatment.
Magnetic separation and degradation approaches for effective microplastic removal from aquatic and terrestrial environments
This review covers methods for removing microplastics from water and soil environments using magnetic separation and degradation technologies. Researchers describe how microplastics can be captured using magnetic particles and then broken down through biodegradation, advanced oxidation, or electrochemical processes. The study highlights these combined approaches as promising strategies for addressing microplastic pollution across both aquatic and land-based ecosystems.
Microplastics and nanoplastics: Recent literature studies and patents on their removal from aqueous environment
This review surveyed recent research and 42 international patents on technologies for removing microplastics and nanoplastics from water, categorizing methods into filtration, capture-based, and degradation approaches. Removal efficiencies between 58% and 100% were reported across techniques including coagulation, membrane filtration, photocatalytic degradation, and microbial breakdown. The study highlights that while promising methods exist, each has limitations depending on factors like plastic type, water chemistry, and particle size.
Critical review of microplastics removal from the environment
This review evaluates technologies for removing microplastics from the environment, including physical methods like filtration, chemical treatments, and biological approaches using microorganisms. Each method has trade-offs between effectiveness, cost, and scalability, and no single technology can solve the problem alone. The authors emphasize that reducing human exposure to microplastics requires combining better removal technologies with policies that limit plastic production and waste at the source.
Treatment technologies for the removal of micro plastics from aqueous medium
Researchers reviewed treatment technologies for removing microplastics from water, finding that while multiple methods including filtration, membrane processes, and coagulation show promise, their effectiveness depends on microplastic size, type, and concentration.
Removal of microplastic and plasticizer from waterbodies; A review
Researchers reviewed a wide range of techniques for detecting and removing microplastics and chemical plasticizers (additives that make plastic flexible) from water, covering methods from microscopy to advanced oxidation and metal-organic frameworks. The review highlights that no single method works for all situations, and cost-effective, sustainable approaches tailored to specific pollutant types are still urgently needed.