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Air‐based polyethylene fragmentation with high yield to form microplastic particles as reference material candidates
Summary
Researchers developed an air-based machine to produce aged microplastic reference material particles with high yield, using ultraviolet aging of thin polyethylene foil followed by mechanical fragmentation with clean air, eliminating the need for resource-intensive liquid nitrogen grinding. Physical and chemical characterization confirmed the method produces particles between 1 and 1000 µm that mimic environmentally weathered microplastics, addressing a key gap in standard reference materials for microplastic research.
Abstract Microplastic (MP) particles with sizes between 1 and 1000 µm are widely distributed worldwide. Origin, transport pathways, and fate are poorly known, as sampling, sample preparation, and detection methods are major challenges. In addition, reference materials that mimic environmental particles are lacking. The most challenging is the yield of MP particle production and the need for resource‐intensive grinding with liquid nitrogen. In this paper, a machine is designed to produce aged microplastic particles as reference material candidates with high yield. The machine is based on ultraviolet aging of a thin foil and mechanical fragmentation using clean air. An example of aging and fragmentation of high‐density polyethylene with additional physical and chemical characterization of shape, size, aging state by carbonyl index, and density is presented.