Blueprint for the design, construction, and validation of a plastic and phthalate-minimised laboratory
Micro and nanosized plastics (MNPs), and a range of associated additive chemicals, have become pervasive contaminants that humans and the environment are exposed to everyday. However, one of the principal challenges in their analysis is adequate strategies to minimise background contamination. Here...
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Veröffentlicht in: | Journal of hazardous materials 2024-04, Vol.468, p.133803-133803, Article 133803 |
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Sprache: | eng |
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Zusammenfassung: | Micro and nanosized plastics (MNPs), and a range of associated additive chemicals, have become pervasive contaminants that humans and the environment are exposed to everyday. However, one of the principal challenges in their analysis is adequate strategies to minimise background contamination. Here a blueprint for a specialised plastics and additive-minimised clean room laboratory built for this purpose is presented. Common laboratory construction materials (n = 23) were tested, including acoustic baffles, ceiling materials, floor materials, glazing rubber, and silicone sealant. The % polymer content ranged from 2–76% w/w while the sum concentration of six phthalates ranged from 0.81 (0.73–0.86) to 21000 (15000–27000) mg/kg, assigning many of these materials as inappropriate for use in a clean room environment. The final design of the laboratory consisted of three interconnected rooms, operated under positive pressure with the inner rooms constructed almost entirely of stainless steel. Background concentrations of MNPs and phthalates in the new laboratory were compared to two Physical Containment Level 2 (PC2) laboratory environments, with concentrations of MNPs reduced by > 100 times and phthalates reduced by up to 120 times. This study reports the first known clean room of its kind and provides a blueprint for reference and use by future plastics research.
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•Design, testing and build of a plastics and additive chemicals minimised laboratory.•23 construction materials contained 2-76% polymers and 0.8-21000 mg/kg phthalates.•Using stainless steel can reduce phthalate introduction by 250–650 times.•Background levels of MNP and phthalates were > 100 lower compared to a PC2 laboratory. |
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ISSN: | 0304-3894 1873-3336 |
DOI: | 10.1016/j.jhazmat.2024.133803 |