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61,005 resultsShowing papers similar to Microplastics Degradation and Characterization
ClearMicroplastics: Environmental Occurrence and Analytical Challenges
This comprehensive literature review examines how microplastics — plastic particles between 1 micrometer and 5 mm — enter and move through ecosystems, and what analytical methods are used to detect them. Despite being found throughout the world, the environmental consequences and toxic effects of microplastics on living organisms are still not fully understood.
Nano-plastics and their analytical characterisation and fate in the marine environment: From source to sea
Researchers reviewed the sources, environmental fate, organism interactions, and analytical detection methods for nano-sized plastic polymers in the marine environment, concluding that nanoplastics pose the greatest ecological risk among plastic size fractions and that standardized analytical protocols for nanoplastic characterization are urgently needed.
Research Progress of Microplastics
This review summarizes research progress on microplastics, covering their sources, distribution across environmental compartments, detection methods, and ecotoxicological effects on organisms. The authors highlight key knowledge gaps including the long-term fate of small microplastics and nanoplastics in terrestrial and aquatic systems.
Microplastic degradation methods
This review examines methods for degrading microplastics, which are plastic particles smaller than 5 mm that have become ubiquitous contaminants throughout the biosphere. Researchers synthesized physical, chemical, and biological degradation approaches, evaluating their efficacy for reducing microplastic persistence in the environment and mitigating associated health and ecological risks.
A review on the occurrence, distribution, characteristics, and analysis methods of microplastic pollution in ecosystem s
This review covers the occurrence, distribution, characteristics, and analytical methods for microplastics across environmental matrices, emphasizing their small size and resistance to degradation as key factors driving persistence and risk. It identifies gaps in standardized monitoring methods needed for global comparisons.
Separation and characterization of microplastic and nanoplastic particles in marine environment
This review examined methods for separating and characterizing microplastics and nanoplastics in marine environments, addressing challenges posed by their tiny size, diverse properties, and ability to adsorb pollutants.
Microplastics in the ecosystem and methods to identify them
This review examines microplastic and nanoplastic formation, environmental fate, and detection methods, synthesizing evidence on how physical, chemical, and biological degradation of bulk plastics generates particles that permeate soils, water, and the atmosphere. The authors evaluate wastewater treatment efficacy, biomagnification in food chains, and analytical approaches for monitoring MP and NP presence across environmental compartments.
Micro/nano-plastics occurrence, identification, risk analysis and mitigation: challenges and perspectives
This review provides a comprehensive overview of micro- and nanoplastic pollution, covering their sources, occurrence in different environments, identification methods, and potential risks to ecosystems and human health. Researchers examined current analytical techniques and found significant gaps in the ability to detect and quantify the smallest plastic particles. The study outlines mitigation strategies including improved waste management, advanced filtration, and biodegradable alternatives.
Microplásticos: Ocorrência Ambiental E Desafios Analíticos
This review covers the environmental occurrence of microplastics (1 µm to 5 mm) and the analytical challenges involved in their detection, discussing how biological and physicochemical processes alter plastic debris in ecosystems and the methods used to identify and quantify microplastics across environmental matrices.
Separation, characterization and identification of microplastics and nanoplastics in the environment
This review evaluates the various analytical techniques used to separate, characterize, and identify microplastics and nanoplastics in environmental samples. Researchers compared the strengths and weaknesses of different methods including spectroscopy, microscopy, and thermal analysis approaches. The study highlights the need for standardized procedures and emerging detection tools to improve our understanding of microplastic contamination and its ecological impacts.
The biography of microplastics (MPs): occurrences, sources, weathering/degradation, characterization, ecological/human risks, removal methods, policy development, and current trends and future perspectives
This comprehensive review covers the full lifecycle of microplastics, from their sources and environmental breakdown to their effects on ecosystems and human health. The authors discuss how physical, chemical, and biological processes fragment larger plastics into microplastics and nanoplastics that spread through air, water, and soil. The review emphasizes the growing evidence that microplastic exposure poses risks to human health and calls for stronger policies and standardized research methods.
The Challenge of the Analysis of Nanoplastics in the Environment: Current Status and Perspectives
This review examines the analytical challenges of detecting and characterising nanoplastics in environmental samples, presenting the state of the art in size determination, chemical composition analysis, and quantification techniques, as well as a survey of nanoplastic model materials used in the literature.
Nanoscale plastic pollution: sources, identification and potential mitigation
This review examines the sources, environmental fate, and potential mitigation strategies for nanoscale plastic pollution, tracing the accumulation of plastic particles from millimetre to nanometre scales over decades. It highlights key knowledge gaps and emerging approaches for reducing nanoplastic contamination in ecosystems.
Micro- and Nano-Plastics Contaminants in the Environment: Sources, Fate, Toxicity, Detection, Remediation, and Sustainable Perspectives
This review provides a broad overview of micro- and nanoplastic pollution, covering where these particles come from, how they spread through the environment, and the damage they cause to living things including humans. The authors also compare different methods for removing microplastics from the environment, including physical, chemical, and biological approaches. The paper calls for more research and global cooperation to develop better tools for measuring the health risks of plastic pollution.
Detection and degradation of microplastics in the environment: a review
This review covers methods for detecting and breaking down microplastics in the environment. Microplastics persist in ecosystems and pose potential risks to both human health and wildlife. The paper highlights the need for better tools and strategies to address this growing pollution problem.
Environmental Fate, Behavior, and Risk Management Approaches of Nanoplastics in the Environment
Researchers reviewed the environmental fate, behavior, and risk management of nanoplastics, which are plastic particles smaller than one micrometer. The study suggests that nanoplastics may pose greater environmental and health risks than larger microplastics due to their nanoscale properties, though significant knowledge gaps remain about their transport, transformation, and long-term ecological effects.
The micro-, submicron-, and nanoplastic hunt: A review of detection methods for plastic particles
This review systematically summarizes detection and characterization methods for micro-, submicron-, and nanoplastics, providing recommendations for method validation, standardization, and analytical pathways suited to different sample types and research goals.
Occurrence, distribution, characteristics, toxicity, human health effects and removal techniques of Microplastic: A Review
This review surveys the occurrence, distribution, toxicity, and health effects of microplastics across environmental compartments, examining how these particles enter ecosystems and food chains and evaluating available removal and mitigation techniques.
Detection and Fate of Microplastics and Nanoplastics and Technologies for Their Removal
This review covers the detection, environmental fate, and removal technologies for microplastics and nanoplastics across aquatic, terrestrial, and atmospheric ecosystems. Researchers summarize the current understanding of how these particles are distributed in environmental matrices and biota, from marine organisms to human tissues. The study highlights both the scale of the contamination problem and the emerging technologies being developed to address it.
The Fate of Micro/Nano Plastic Pollutants in the Natural Environment
This review explains how micro- and nanoplastics form through physical, chemical, and biological breakdown of larger plastic debris, and then traces their fate across land, water, and living organisms at every level of the ecological hierarchy. The authors discuss methods for identifying and classifying these particles and summarize the ecotoxicological risks they pose as they accumulate and interact with other pollutants. It provides a broad-level framework for understanding where microplastics end up in nature and why that matters for both ecosystem and human health.
Quantifying micro- and nanoplastics
This work addresses methodological approaches for quantifying micro- and nanoplastics in environmental samples, examining analytical techniques, sampling strategies, and measurement challenges. The publication is part of the international research literature on standardizing plastic particle detection and quantification methods.
Environmental Microplastics Distribution, Impact, and Determination Methods: a Review
This review provides a comprehensive overview of global microplastic distribution, their environmental and health impacts, and the analytical methods used to detect and quantify them. Researchers classified detection techniques into traditional, post-traditional, and advanced categories and identified significant gaps in current monitoring coverage. The study also presents possible removal approaches including biodegradation and the use of biodegradable plastic substitutes as paths toward reducing microplastic pollution.
Challenges and Recent Analytical Advances in Micro/Nanoplastic Detection
This review covers the challenges scientists face in detecting and measuring micro- and nanoplastics in the environment, especially for particles smaller than one micrometer. Current analytical methods have significant limitations for identifying nanoplastics due to their extremely small size and diverse chemical compositions. Improving detection technology is essential for accurately assessing how much microplastic contamination exists in water, food, and human tissues.
Micro/nanoplastics in aquatic ecosystems: Analytical challenges, ecological impacts, and mitigation strategies
This review provides a comprehensive assessment of micro- and nanoplastic pollution in aquatic ecosystems, covering detection methods, toxic effects across the food chain, and emerging cleanup strategies. Researchers highlight the limitations of current analytical techniques and the challenges of accurately measuring these tiny particles in water and living organisms. The study identifies key research priorities needed to better understand and mitigate the growing threat of plastic particle pollution in waterways.