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61,005 resultsShowing papers similar to Vacuum UV (VUV) Photo‐Oxidation of Polymer Surfaces to Enhance Adhesion
ClearFrom Macro to Micro Plastics; Influence of Photo-oxidative Degradation
This study used simulated UV aging to investigate how photo-oxidative degradation of common plastics drives fragmentation from macro to micro scale, characterizing the surface property changes and structural breakdown that generate microplastic particles in the environment.
Investigation of Surface Alteration of Microplastics by Using UV Irradiation
UV radiation causes polystyrene and other plastic microparticles to undergo photooxidative degradation, changing their surface chemistry and potentially making them more likely to adsorb or release chemical pollutants. Understanding these weathering processes is important for predicting the environmental behavior and toxicity of microplastics.
The effects of ultraviolet irradiation treatment on the surface properties of microplastics
UV irradiation was used to modify microplastic surface properties, making them more hydrophilic, which improved flotation efficiency — a water treatment technique that relies on particle hydrophobicity — demonstrating a pretreatment approach to enhance MP removal from water.
The influence of oxidation and hydrophobic coupling on the transport behavior of polyethylene microplastics: The synergistic effect of ultraviolet aging and surfactants
Researchers investigated how ultraviolet aging and surfactant attachment interact to influence the transport behavior of polyethylene microplastics, finding that UV oxidation increases oxygen-containing surface groups and reduces hydrophobicity, which in turn alters surfactant adsorption and modifies particle mobility in environmental systems. The study addresses a gap in understanding the coupled effects of oxidative aging and surface chemistry on microplastic transport.
Comparison of surficial modification of micro-sized polyethylenein between by UV/O3 and UVO submerged system
Researchers compared ozone and UV oxidation methods for chemically modifying the surface of polyethylene microplastics in water, finding that different treatment combinations create distinct surface changes. Understanding how weathering alters microplastic surfaces is important for predicting their environmental behavior and toxicity.
Investigating Adhesion and Degradation of Polymer Materials for Industrial Applications
This study investigated the adhesion and degradation behaviors of polymer materials used in industrial applications, examining how surface interactions and environmental breakdown contribute to plastic pollution through microplastic generation.
Ultraviolet-C and vacuum ultraviolet inducing surface degradation of microplastics
Researchers studied how UV-C and vacuum ultraviolet irradiation affect the surfaces of four common microplastic types during water disinfection. They found that standard UV doses used in wastewater treatment had little effect, but higher doses caused significant surface cracking, chemical bond breakdown, and changes in hydrophobicity. The study suggests that UV disinfection in wastewater plants can alter microplastic surface properties, which may affect how these particles interact with pollutants and organisms downstream.
Surface deoxygenation via electron beam/oxidant treatment: A novel pathway to reduce pollutant adsorption on aged microplastics
Researchers developed a novel electron beam combined with oxidant treatment to artificially age microplastic surfaces, achieving rapid generation of oxygen-containing functional groups that enhanced pollutant adsorption capacity while also initiating plastic degradation.
Chemical/photochemical functionalization of polyethylene terephthalate fabric: effects on mechanical properties and bonding to nitrile rubber
Researchers compared two methods for modifying the surface of polyethylene terephthalate (PET) fabric — a common plastic used in textiles — to improve how it bonds to rubber, finding that UV-light-based carboxylation created 4.5 times more surface hydroxyl groups and improved adhesion by up to 33%, while chemical hydrolysis with sodium hydroxide weakened the fabric's tensile strength. The UV method offers a more effective approach for manufacturing durable rubber-plastic composite materials.
Laboratory simulation of microplastics weathering and its adsorption behaviors in an aqueous environment: A systematic review
UV photo-oxidation and physical abrasion are the most practical laboratory methods for simulating microplastic weathering; aging increases surface area and oxygen-containing functional groups, altering pollutant adsorption behavior and potentially increasing environmental risks.
The effects of uv-radiation on the removal of microplastics in water using agglomeration-micro-flotation
Researchers investigated how UV radiation affects the surface wettability of six types of microplastics and its influence on removal efficiency via agglomeration-micro-flotation in water. UV treatment altered surface properties of the microplastics, and results showed that the modified wettability affected flotation performance, offering insights into using UV pre-treatment to enhance microplastic removal in water treatment systems.
Progress on the photo aging mechanism of microplastics and related impact factors in water environment
This review examined the photo-aging mechanisms of microplastics in aquatic environments, finding that solar UV radiation drives oxidation reactions that alter surface chemistry, fragment particles further, and enhance their capacity to adsorb and release co-occurring pollutants.
Effect of light irradiation on heavy metal adsorption onto microplastics
Researchers investigated how UV light irradiation of polypropylene microplastics affected their adsorption of lead (Pb) from water, finding that photo-weathering increased surface oxidation and significantly enhanced heavy metal adsorption capacity.
Aging mechanism of microplastics with UV irradiation and its effects on the adsorption of heavy metals
Researchers aged polystyrene microplastics using UV irradiation under three conditions (air, pure water, seawater) and found that aging changed surface chemistry and increased the microplastics' capacity to adsorb heavy metals, with seawater aging producing the most pronounced surface oxidation.
Non-Negligible Effects of UV Irradiation on Transformation and Environmental Risks of Microplastics in the Water Environment
This review examines how UV irradiation drives photoaging of microplastics in aquatic environments, altering their surface chemistry, mechanical properties, and adsorption capacity for co-pollutants, and thereby amplifying their ecotoxicological risks beyond those of virgin plastic particles.
Adsorption behaviors of microplastics from packaging materials subjected to ultraviolet irradiation and microbial colonization
Researchers studied how UV irradiation and microbial colonization alter the surface properties of microplastics from discarded packaging materials and their ability to adsorb pollutants. They found that aging processes changed surface chemistry and hydrophilicity, affecting how microplastics interact with contaminants like crystal violet dye through hydrogen bonding, electrostatic attraction, and hydrophobic interactions.
Aging of Plasma-Activated Polyethylene and Hydrophobic Recovery of Polyethylene Polymers
This paper is not about microplastics. It reviews the aging and hydrophobic recovery of plasma-treated polyethylene surfaces, examining how these activated polymer surfaces gradually lose their water-attracting properties over time. While it concerns polyethylene chemistry, the study is focused on surface engineering for coatings and adhesion rather than microplastic pollution or environmental contamination.
Study on the impact of photoaging on the generation of very small microplastics (MPs) and nanoplastics (NPs) and the wettability of plastic surface
Experiments using UV light to artificially age six common plastic types showed that sunlight (photoaging) accelerates the breakdown of plastics into very small microplastics and nanoplastics and makes plastic surfaces rougher and more chemically reactive. Understanding how different polymer structures respond to light aging is important for predicting which plastics will fragment fastest in the environment and generate the most hazardous small particles.
Adsorption behavior of UV aged microplastics on the heavy metals Pb(II) and Cu(II) in aqueous solutions
Researchers examined how UV aging affects the adsorption of lead and copper onto polypropylene, polyethylene, and polystyrene microplastics, finding that aging creates new oxidation functional groups that enhance heavy metal adsorption capacity.
Surface Reactions in Selective Modification: The Prerequisite for Plastic Flotation
This review examines the surface chemistry modifications used in plastic flotation separation, a process that selectively separates mixed plastic waste streams for recycling by exploiting differences in surface hydrophilicity. Improving plastic recycling efficiency through better sorting technology reduces the amount of plastic waste that ultimately degrades into environmental microplastics.
Studies of the Photo-transformation of Emerging Contaminants Adsorbed onto Plastic in an Aqueous Environment
This thesis investigated how light exposure transforms chemical contaminants adsorbed onto microplastics in water, examining how UV-driven photo-transformation changes the toxicity of pollutants like PCBs and PAHs attached to plastic surfaces. Understanding these transformations is important for assessing the true environmental risk of chemical-laden microplastics.
UV sources and plastic composition influence microplastic surface degradation: Implications for plastic weathering studies
This study tested how different UV light sources change the surface of common microplastics like polyethylene, polypropylene, and polystyrene. The results show that sunlight and lab UV lights weather plastics differently, changing their surface roughness and chemical makeup -- which matters because these surface changes affect how microplastics transport pollutants and interact with living organisms in the environment.
Photoaging alters the aggregation behavior of functionalized nanoplastics differently: effects of leached organic matter and surface properties changes
This study found that UV photoaging of nanoplastics changes their surface chemistry and causes them to release organic compounds, but the downstream effect on how particles clump together (aggregation) differs markedly depending on what chemical groups are on the particle surface. This matters because aggregation behaviour controls whether nanoplastics sink or stay suspended in water, affecting which organisms are exposed and how far the particles travel.
UVA-induced weathering of microplastics in seawater: surface property transformations and kinetics
Researchers studied how UVA radiation weathers microplastics in seawater, examining changes to surface properties and degradation rates. The study developed a model integrating an aging index with degradation kinetics, finding that UV exposure significantly transforms microplastic surface characteristics, which affects their behavior and potential ecological impact in marine environments.