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61,005 resultsShowing papers similar to From closet to contaminant to control: Unveiling microplastic sources in household textiles and potential for environmental application
ClearEnvironmental Impact of Textile Materials: Challenges in Fiber–Dye Chemistry and Implication of Microbial Biodegradation
This review examines how the textile industry contributes to environmental pollution through both chemical dye waste and microplastic fiber release. Synthetic fabrics like polyester and nylon shed non-biodegradable microfibers during manufacturing and washing, while the dyeing process generates contaminated wastewater. The paper highlights microbial biodegradation as a promising and cost-effective approach to breaking down both textile waste and the microplastics it produces.
Filamentous Fungi Are Potential Bioremediation Agents of Semi-Synthetic Textile Waste
Not relevant to microplastics — this study tests whether filamentous fungi can biodegrade semi-synthetic textile waste and azo dyes, addressing textile recycling rather than microplastic particle pollution.
Harnessing Bio-Immobilized ZnO/CNT/Chitosan Ternary Composite Fabric for Enhanced Photodegradation of a Commercial Reactive Dye
This paper is not about microplastics; it describes the fabrication and testing of a ZnO/carbon nanotube/chitosan composite fabric as a photocatalyst for degrading textile dye (Reactive Blue 4) in wastewater, with no connection to microplastic research.
Textile Recycling’s Hidden Problem: Surface-Modified Fiber Fragments Emitted at Every Stage
Researchers investigated microplastic fiber release during chemical recycling of polyester-cotton blended textiles and found that the dye removal stage generated the highest fiber counts, averaging around 10,055 fibers per gram of textile waste. Alkaline hydrolysis reduced fiber emissions during the treatment stage by nearly 88% compared to acid hydrolysis. The study highlights that textile recycling processes, while essential for sustainability, can themselves be a significant source of microplastic fiber pollution.
TextileRecycling’s Hidden Problem: Surface-ModifiedFiber Fragments Emitted at Every Stage
Researchers investigated microplastic fiber (MPF) release during chemical recycling of polyester/cotton-blended textiles, finding that the dye removal stage emitted the highest MPF count at nearly 10,055 MPFs per gram, while alkaline hydrolysis reduced MPF release by 87.55% compared to acid hydrolysis during the treatment stage.
TextileRecycling’s Hidden Problem: Surface-ModifiedFiber Fragments Emitted at Every Stage
Researchers investigated microplastic fiber (MPF) release during chemical recycling of polyester/cotton-blended textiles, finding that the dye removal stage emitted the highest MPF count at nearly 10,055 MPFs per gram, while alkaline hydrolysis reduced MPF release by 87.55% compared to acid hydrolysis during the treatment stage.
TextileRecycling’s Hidden Problem: Surface-ModifiedFiber Fragments Emitted at Every Stage
Researchers investigated microplastic fiber (MPF) release during chemical recycling of polyester/cotton-blended textiles, finding that the dye removal stage emitted the highest MPF count at nearly 10,055 MPFs per gram, while alkaline hydrolysis reduced MPF release by 87.55% compared to acid hydrolysis during the treatment stage.
Unraveling the ecological impact of textile microfibers: Current knowledge and research challenges
This review examines the ecological impact of textile microfibers, a major subset of microplastic pollution released during laundry and fabric wear. Researchers found significant knowledge gaps regarding how these fibers affect organisms and ecosystems, particularly when interacting with other environmental contaminants. The study calls for more standardized research methods and greater attention to this pervasive but understudied form of microplastic pollution.
A review on microplastic emission from textile materials and its reduction techniques
Researchers reviewed how synthetic textile fibers — tiny plastic threads released from clothes during washing, drying, and wearing — are a major source of microplastic pollution, entering waterways and food chains through seafood, salt, and drinking water. They identify fabric type, detergent, and washing conditions as key factors affecting fiber release, and propose textile finishing and regulatory strategies to reduce emissions.
Promoting degradation of polyamide-microplastic fibers using hydroxy radical
Researchers found that hydroxyl radicals generated in water can degrade polyamide microplastic fibers shed from synthetic textiles. This approach offers a potential chemical treatment pathway for removing synthetic fiber microplastics from laundry wastewater before they reach waterways.
Microplastic Release from Domestic Washing
Researchers measured microfiber release from domestic washing of textile materials across five washing cycles, finding that the amount of microplastic fiber shed varied significantly with washing conditions and fiber type, contributing to aquatic microplastic pollution.
Charting a path to catalytic upcycling of plastic micro/nano fiber pollution from textiles to produce carbon nanomaterials and turquoise hydrogen
Researchers demonstrated proof-of-concept for catalytic upcycling of polyester and cotton textile-derived microfibers into structured solid carbon products, using a defined fiber feedstock to establish a pathway for converting fiber pollution into value-added carbon materials.
A review of microplastic fibres: generation, transport, and vectors for metal(loid)s in terrestrial environments
This review examines microplastic fibers released from synthetic textile laundering as a diffuse source of metal pollution in terrestrial environments, finding that environmental degradation increases the surface area and metal-binding capacity of fibers, facilitating transport of cadmium, chromium, and zinc.
Chemical Recycling of PET Polyester Textile Wastes Using Ag-Doped ZnO Nanoparticles: An Economical Solution for Circular Economy
Researchers developed a chemical recycling method using silver-doped zinc oxide nanoparticles to break down polyester textile waste into reusable materials. Chemical recycling offers a path to recovering value from synthetic fabric waste that currently ends up in landfills or as microfiber pollution in waterways.
Exploring Microplastic and Natural Fiber Emissions from Fabrics and Textiles
This review examines microplastic and natural fiber emissions released from fabrics and textiles during use and washing, identifying textiles as a major but underappreciated source of microplastic pollution in the environment. The authors assess emission factors and the downstream environmental and health implications of synthetic fiber shedding.
Synthetic microfibers: Pollution toxicity and remediation
Researchers reviewed the sources, transport pathways, ecological impacts, and remediation approaches for synthetic microfiber pollution originating from domestic washing machines. The study highlights that urban laundry wastewater is a major contributor to microfiber pollution entering aquatic and terrestrial environments, with potential effects on the food chain and human health.
Microplastic pollution from textiles: A literature review
This review examines the current state of knowledge on microplastic pollution, focusing specifically on synthetic microfibre shedding from textiles during washing and the significance of this source for marine and freshwater contamination.
Insights on Microplastic Contamination from Municipal and Textile Industry Effluents and Their Removal Using a Cellulose-Based Approach
Researchers analyzed microplastic contamination in effluents from textile industries and municipal sources and evaluated a cellulose-based treatment approach for their removal. Textile effluents contained high microplastic concentrations dominated by synthetic fibers, and the cellulose-based method achieved significant removal efficiency, offering a biodegradable remediation alternative.
Functionalized textile microplastics: A closer look at the issues, strategy, and legislation on the microplastic reduction
Researchers reviewed how textiles release microplastics into soil, water, and air while also shedding toxic chemicals like PFAS, heavy metals, and formaldehyde during production and washing, and examined the gaps in international legislation aimed at reducing microfiber pollution from the fashion industry.
Quantifying shedding of synthetic fibers from textiles; a source of microplastics released into the environment
Researchers quantified the shedding of synthetic fibers from textiles during simulated washing, finding that fabric type, age, and wash conditions significantly affected fiber release, and establishing a quantitative basis for estimating textile-derived microplastic inputs.
Examining the Importance of Pretreatment to Capture and Analyze Microfibers from Textile Wastewater
Researchers examined the importance of pretreatment steps for capturing and analyzing microfibers released from the textile industry during wet processing steps such as dyeing, rinsing, softening, and finishing, identifying inorganic compounds alongside synthetic fibers as key wastewater contaminants.
Microplastic pollution in aquatic environments from washing synthetic textiles
Washing synthetic textiles releases microplastic fibers into wastewater, and this study reviewed the scale of the problem and explored strategies to reduce emissions at the washing machine, garment design, and wastewater treatment levels. Textile laundering is considered one of the largest sources of microplastic fiber pollution reaching aquatic environments.
Fibras Têxteis Sintéticas E a Liberação De Microplásticos: Uma Revisão
This review synthesizes published research on the release of microplastic fibers from synthetic textiles during domestic laundering, examining the mechanisms, quantities, and environmental fate of fiber shedding into waterways and the resulting risks to aquatic ecosystems and human health.
Microplastics in Wastewater by Washing Polyester Fabrics
Researchers investigated microplastic fiber release from polyester fabrics during washing, characterizing the quantity and types of microplastics generated and their potential pathway into wastewater systems as a significant source of environmental microplastic pollution.