- Title
- Identification of microplastic fibres released from COVID-19 test swabs with Raman imaging
- Creator
- Fang, Cheng; Luo, Yunlong; Chuah, Clarence; Naidu, Ravi
- Relation
- Environmental Sciences Europe Vol. 35, Issue 1, no. 34
- Publisher Link
- http://dx.doi.org/10.1186/s12302-023-00737-0
- Publisher
- SpringerOpen
- Resource Type
- journal article
- Date
- 2023
- Description
- Background: COVID-19 pandemic is not yet over, and it has been generating lots of plastic wastes that become a big concern. To catch the virus, for example, no matter via antigen or PCR test, swab is generally used for sampling. Unfortunately, the swab tip is commonly made of plastics, and thus it can be a potential source of microplastics. This study aims to propose and optimise several Raman imaging to identify the microplastic fibres released from different COVID-19 test swabs. Results: The results show that Raman imaging can effectively identify and visualise the microplastic fibres released from the swabs. In the meantime, on the surface of the fibres, additives such as titanium oxide particles are also captured for some brands of swabs. To increase the result certainty, scanning electron microscope (SEM) is first employed to get the morphology of the released microplastic fibres, along with Energy-dispersive X-ray spectroscopy (EDS) to confirm the presence of titanium element. Then, Raman imaging is advanced to identify and visualise the microplastics and titanium oxide particles, from different characteristic peaks in the scanning spectrum matrix. To further increase the imaging certainty, these images can be merged and cross-checked using algorithms, or the raw data from the scanning spectrum matrix can be analysed and decoded via chemometrics, such as principal component analysis (PCA). Beyond the advantages, the disadvantages of the confocal Raman imaging (affected by focal height) and algorithms (non-supervised calculation) are also discussed and intentionally corrected. In brief, the imaging analysis (particularly the combined SEM with Raman) is recommended to avoid the possible result bias that might be generated from the single spectrum analysis at a selective but random position. Conclusions: Overall, the results indicate that Raman imaging can be a useful tool to detect microplastics. The results also send us a strong warning that, if we worry about the potential microplastics contamination, we should be cautious to select the suitable COVID-19 testing kits.
- Subject
- COVID-19 testing kit; swab; microplastic; titanium oxide particle; algorithm; Raman imaging
- Identifier
- http://hdl.handle.net/1959.13/1488746
- Identifier
- uon:52522
- Identifier
- ISSN:2190-4707
- Rights
- x
- Language
- eng
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