- Title
- Raman imaging for the identification of Teflon microplastics and nanoplastics released from non-stick cookware.
- Creator
- Luo, Yunlong; Gibson, Christopher T.; Chuah, Clarence; Tang, Youhong; Naidu, Ravi; Fang, Cheng
- Relation
- Science of the Total Environment Vol. 851, Issue 10 December 2022, no. 158293
- Publisher Link
- http://dx.doi.org/10.1016/j.scitotenv.2022.158293
- Publisher
- Elsevier
- Resource Type
- journal article
- Date
- 2022
- Description
- The characterisation of microplastics is still difficult, and the challenge is even greater for nanoplastics. A possible source of these particles is the scratched surface of a non-stick cooking pot that is mainly coated with Teflon. Herein we employ Raman imaging to scan the surfaces of different non-stick pots and collect spectra as spectrum matrices, akin to a hyperspectral imaging process. We adjust and optimise different algorithms and create a new hybrid algorithm to extract the extremely weak signal of Teflon microplastics and particularly nanoplastics. We use multiple characteristic peaks of Teflon to create several images, and merge them to one, using a logic-based algorithm (i), in order to cross-check them and to increase the signal-noise ratio. To differentiate the varied peak heights towards image merging, an algebra-based algorithm (ii) is developed to process different images with weighting factors. To map the images via the whole set of the spectrum (not just from the individual characteristic peaks), a principal component analysis (PCA)-based algorithm (iii) is employed to orthogonally decode the spectrum matrix to the PCA spectrum and PCA intensity image. To effectively extract the Teflon spectrum information, a new hybrid algorithm is developed to justify PCA spectra and merge PCA intensity images with the algebra-based algorithm (PCA/algebra-based algorithm) (iv). Based on these developments and with the help of SEM, we estimate that thousands to millions of Teflon microplastics and nanoplastics might be released during a mimic cooking process. Overall, it is recommended that Raman imaging, along with the signal recognition algorithms, be combined with SEM to characterise and quantify microplastics and nanoplastics.
- Subject
- raman spectroscopy; spectrum matrix; polytetrafluoroethylene; principal component analysis; signal-to-noise ratio; background
- Identifier
- http://hdl.handle.net/1959.13/1465532
- Identifier
- uon:47291
- Identifier
- ISSN:0048-9697
- Language
- eng
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