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Papers
61,005 resultsShowing papers similar to Aqueous Dispersions of Polypropylene: Toward Reference Materials for Characterizing Nanoplastics
ClearNPPP-1 : Matériau de référence nanométrique de polypropylène
Researchers developed and characterized NPPP-1, a reference material consisting of nanoscale polypropylene dispersed in water, intended to standardize biological effects assessment and support development and optimization of nanoplastic detection techniques.
Preparation of Nanoscale Particles of Five Major Polymers as Potential Standards for the Study of Nanoplastics
Researchers developed a precipitation-based method for preparing nanoscale particles of five major polymers, creating standardized reference materials needed for studying nanoplastic distribution and toxicity in the environment.
Preparation of Nanoplastic Particles as Potential Standards for the Study of Nanoplastics
Researchers developed methods to prepare well-defined nanoplastic particles as potential reference standards for nanoplastic research, addressing the critical shortage of reliable materials for toxicity studies and analytical method validation. The study characterized the size, shape, and surface properties of the produced particles to confirm their suitability as standards.
A reliable procedure to obtain environmentally relevant nanoplastic proxies
Researchers developed a reliable procedure for producing nanoplastic proxies with properties more representative of environmentally aged nanoplastics, addressing the urgent need for better reference materials in nanoplastic fate, transport, and toxicology research.
A novel proof of concept approach towards generating reference microplastic particles
Researchers developed a new method for creating standardized reference microplastic particles that can be embedded in a dissolvable matrix in precise, known quantities. Current microplastic research suffers from a lack of consistent reference standards, making it difficult to compare results across different laboratories and methods. The approach could significantly improve the quality and comparability of microplastic measurements in environmental studies.
Fabrication and characterization of (fluorescent) model nanoplastics for polymer specific detection
Scientists developed fluorescently labeled model nanoplastics that mimic the properties of real plastic particles, enabling polymer-specific identification at very small scales. These standardized reference particles are a key research tool because nanoplastics are otherwise extremely difficult to detect and characterize in environmental samples.
Synthesis of model polyethylene particles for the study of nanoplastics in the oceans
Researchers synthesized model polyethylene nanoplastic particles to serve as reference materials for studying the behavior and fate of nanoplastics in ocean environments, addressing the gap created by the lack of standardized particles representative of naturally fragmented marine plastic debris.
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.
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.
The Emerging of Microplastic and Nanoplastic as Pollutants and their Characterization and Analysis
This review presents an integrated approach to sampling, sample preparation, and analytical methods for detecting microplastics and nanoplastics in solid and aqueous environmental samples, discussing current challenges and emerging methodologies for more accurate characterization.
Developing nano plastics models to study their fate in the environment.
Researchers developed nanoplastic model particles with defined properties to study their behavior and fate in environmental systems. Standardized nanoplastic models are needed because naturally occurring nanoplastics are difficult to isolate and characterize for controlled experiments.
Preparation of a reference material for microplastics in water—evaluation of homogeneity
Researchers developed a candidate reference material for microplastics in water and evaluated its homogeneity, finding it suitable for use in laboratory intercomparison studies and as a tool for validating microplastic analytical methods.
New Analytical Approaches for Effective Quantification and Identification of Nanoplastics in Environmental Samples
This review assessed new analytical approaches for quantifying and identifying nanoplastics in environmental samples, highlighting fundamental challenges in detection due to their small size and the need for improved methods to understand nanoplastic contamination levels.
Small micro- and nanoplastic test and reference materials for research: Current status and future needs
This review highlights the critical shortage of well-characterized, environmentally relevant reference materials for studying small microplastics and nanoplastics. Most laboratory studies use commercially available spherical particles that do not represent the irregular, weathered particles found in nature. The authors call for developing standardized reference materials that better mimic real-world microplastic contamination to improve the reliability of exposure and hazard assessments.
Synthesis of model polyethylene particles for the study of nanoplastics in the oceans
Researchers developed a synthesis method for model polyethylene particles designed to replicate the physicochemical properties of naturally degraded nanoplastics in the ocean, addressing the need for environmentally representative reference materials for studying nanoplastic behavior in marine systems.
Towards nanoplastic reference materials representative of partially degraded/naturally aged samples in complex food and environmental matrices
Researchers developed nanoplastic reference materials that better represent partially degraded and naturally aged particles found in real environmental and food matrices, addressing the gap left by commercially available monodispersed, spherical, surfactant-coated particles that do not reflect the polydispersed morphologies of environmental nanoplastics.
Advances in analytical techniques for micro and nanoplastic characterization: Addressing the need for standardization and reference materials
Researchers at AIMPLAS developed standardized micro- and nanoplastic reference materials — including nanometric PLA and micrometric PP, PE, and PET spheres as well as fluorescently labelled standards — to address the lack of certified reference materials limiting the development and comparability of analytical techniques for microplastic detection.
Advances in analytical techniques for micro and nanoplastic characterization: Addressing the need for standardization and reference materials
Researchers at AIMPLAS developed standardized micro- and nanoplastic reference materials — including nanometric PLA and micrometric PP, PE, and PET spheres as well as fluorescently labelled standards — to address the lack of certified reference materials limiting the development and comparability of analytical techniques for microplastic detection.
Searching Nanoplastics: From Sampling to Sample Processing
This review addresses the challenges of sampling and processing nanoplastics from environmental matrices, discussing how their infinitesimal size and physical diversity complicate detection, characterization, and quantification efforts.
Methodologies to characterize, identify and quantify nano- and sub-micron sized plastics in relevant media for human exposure: a critical review
This review critically evaluated methodologies for characterizing, identifying, and quantifying nano- and sub-micron sized plastics in media relevant to human exposure, highlighting analytical gaps and the need for standardized approaches.
Developing nano plastics models to study their fate in the environment.
Researchers synthesized nanoplastic model particles with well-defined properties to study their environmental fate and transport under controlled conditions. Standardized nanoplastic models allow more reproducible experiments and help bridge the gap between lab studies and real-world nanoplastic behavior.
Nanoplastics: Detection and impacts in aquatic environments – A review
This review examined nanoplastic detection methods and their impacts in aquatic environments, concluding that current analytical capabilities severely underestimate nanoplastic exposure levels due to the difficulty of detecting sub-micron particles. The authors called for standardized nanoplastic detection protocols to enable meaningful risk assessment.
Nanoplastics Identification in Complex Environmental Matrices: Strategies for Polystyrene and Polypropylene
Researchers developed and compared analytical strategies for detecting and identifying polystyrene and polypropylene nanoplastics in complex environmental matrices, evaluating techniques including pyrolysis-GC/MS, Raman spectroscopy, and electron microscopy, and proposing a multi-method workflow for environmental samples.
Development of new microplastic reference particles for usage in pre-defined numbers
This study developed new microplastic reference particles with defined numbers of particles per unit, addressing the lack of standardized reference materials that has hampered comparability across microplastic research studies and analytical methods.