A Preliminary Study of Microplastic Abrasion from the Screw Cap System of Reusable Plastic Bottles by Raman Microspectroscopy

Giese, Anja; Kerpen, Jutta; Weber, Felix; Prediger, Jürgen

doi:10.1021/acsestwater.0c00238

Cited by 16 publications

(7 citation statements)

References 12 publications

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“…Previous studies also reported microplastics smaller than 100 μm mostly dominant in food. For instance, microparticles released from plastic tea bags were of 50–100 μm size, from baby feeding plastic bottles were of 20–50 μm size, and bottled water were of 10–50 μm size . Smaller microplastics in this size range have been reported toxic to human-derived cells as they can translocate in human tissues by cellular and paracellular transport and create different health consequences. , …”

Section: Resultsmentioning

confidence: 99%

“…For instance, microparticles released from plastic tea bags were of 50−100 μm size, 26 from baby feeding plastic bottles were of 20−50 μm size, 21 and bottled water were of 10−50 μm size. 23 Smaller microplastics in this size range have been reported toxic to human-derived cells as they can translocate in human tissues by cellular and paracellular transport and create different health consequences. 46,57 Spherical microplastics (shape factor > 0.63) were dominant in all of the considered chopping scenarios.…”

Section: Size Distribution and Morphologymentioning

confidence: 99%

“…Another study reported daily human ingestion of 1530 microplastics via food and 587 microplastics via drinking water . Reported human uptake of microplastics varies significantly from study to study; however, ingestion of microplastics via food and inhalation have been established as the primary pathways of microplastics entry into the human body. ,− Food and liquids can be contaminated with microplastics from plastic food preparation utensils, packaging, or storage containers. − For instance, polypropylene infant feeding bottles can expose infants to 16.2 million particles per liter of liquid . A single plastic teabag at brewing temperature (95 °C) was found to release 11.6 billion microplastics and 3.1 billion nanoplastics (NPs) into a single cup of tea .…”

Section: Introductionmentioning

confidence: 99%

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Cutting Boards: An Overlooked Source of Microplastics in Human Food?

Yadav

Khan

Quadir

et al. 2023

Environ. Sci. Technol.

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Plastic cutting boards are a potentially significant source of microplastics in human food. Thus, we investigated the impact of chopping styles and board materials on microplastics released during chopping. As chopping progressed, the effects of chopping styles on microplastic release became evident. The mass and number of microplastics released from polypropylene chopping boards were greater than polyethylene by 5−60% and 14−71%, respectively. Chopping on polyethylene boards was associated with a greater release of microplastics with a vegetable (i.e., carrots) than chopping without carrots. Microplastics showed a broad, bottom-skewed normal distribution, dominated by <100 μm spherical-shaped microplastics. Based on our assumptions, we estimated a per-person annual exposure of 7.4−50.7 g of microplastics from a polyethylene chopping board and 49.5 g of microplastics from a polypropylene chopping board. We further estimated that a person could be exposed to 14.5 to 71.9 million polyethylene microplastics annually, compared to 79.4 million polypropylene microplastics from chopping boards. The preliminary toxicity study of the polyethylene microplastics did not show adverse effects on the viability of mouse fibroblast cells for 72 h. This study identifies plastic chopping boards as a substantial source of microplastics in human food, which requires careful attention.

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Section: Resultsmentioning

confidence: 99%

Section: Size Distribution and Morphologymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Cutting Boards: An Overlooked Source of Microplastics in Human Food?

Yadav

Khan

Quadir

et al. 2023

Environ. Sci. Technol.

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“…Detailed information concerning the many sizes of plastic contaminants has been previously analyzed (Saarela et al 2015;Esiukova et al 2020). The anticipated destructive consequences of the adverse impact of the polluting elements can be identi ed by application of the μ-Raman spectroscopy analysis (Giese et al 2021). According to the μ-Raman spectroscopy, the polymer forms, types of synthetic dyes, images of MPs, the hit ratio between the specimen spectra and reference spectra can be recognized (Esiukova et al 2020).…”

Section: Effect Of Contamination Bymentioning

confidence: 99%

“…However, the organic properties of organosilanes can be adjusted to diverse types of polymers. For example, a screw cap system was examined for its MP release potential (Giese et al 2021). In this study, the concentration of the MP (≥10 μm) was determined in reusable polyethylene terephthalate (PET) bottles with polypropylene (PP) caps and polyethylene (PE) seals after opening and closing of the bottles several times.…”

Section: Plastic Pollution Removal and Proposed Solutionsmentioning

confidence: 99%

Converting Plastic Nuisance into a Valuable Resource: Reuse of Residual Plastic Bottles for Manufacturing (3D) Home Printers Under Economic and Improved Environmental Considerations

Yair

Cohen

Oron

2022

Preprint

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Plastic processes and products are constantly growing. About two million tons of plastic were produced in 1950. In 2015, about 380 million tons of plastic were manufactured, of which only around four million tons were sent for recycling during the same year. Plastic pollution has become a global problem. Plastic products and waste cause an environmental hazard that disfigures the natural landscape, damaging aquatic ecology, adversely impacting marine habitat, soils, air, causing groundwater contamination, and increasing greenhouse gas emissions. The three dimensions (3D) printing process is utilizing a computer-aided design (CAD) model, usually by successively adding material in layers. Fused deposition modeling (FDM) – frequently called filament freeform fabrication, is a 3D printing process that uses thermoplastic material as a continuous filament. The goal of the work is to build a prototype printer that uses disposed plastic bottles as a source for raw material. The idea for current work stems from the need to save resources and simultaneously protect the environment. A 3D home printer was created for this purpose however, changes and adjustments were made to implement the idea of the project. A plastic bottle cutter was built in order to insert the raw material into the prototype printer. In addition, the framework of the extruder was substituted and a nozzle diameter was installed. Additional adjustments were made in the printer to maintain a continuous and uniform flow of the hot plastic that was poured onto the printer surface during the printing process.

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