Rebekah Charlotte Süsserott scite author profile

Spectroscopic analysis has become an essential part of the rapidly growing field of microplastic (MP) research. Here we introduce a simple sample preparation method which dramatically improves results from Fourier Transform Infrared (FTIR) analysis of MP and other environmental fibres. Our method provides cost-effective, reliable, high-quality spectra that achieve high-matching scores to polymer libraries. The efficacy of this method is demonstrated with two environmental datasets from Singapore and Phnom Penh that were collected while sampling for atmospheric MPs. The method developed and applied in this study is a simplification of the KBr method, where the analysed fibre is pressed to a thickness of <10 μm, however no KBr powder is required. For the combined dataset, 379 non-pressed fibres were analysed with 193 (51%) returning a Search score of ≥80% (chosen minimum Search score threshold), and 259 pressed fibres, with 254 (98%) returning a Search score of ≥80%. Direct comparisons of fibres before and after pressing show that the highest individual Search score, and average Search score from multiple single-point measurements, are overwhelmingly higher following our method. Our method immobilises and improves the surface of the fibre, by creating a wider and uniform area for measurements to be taken. For FTIR operators, this saves considerable time, improves reliability of the analysis, and importantly, provides reproducibility of the spectra generated.

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First comparison of sampler surface areas for atmospheric microfibre deposition

Finnegan

Süsserott

Koh³

et al. 2022

Environ Monit Assess

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Rebekah Charlotte Süsserott

Man-made natural and regenerated cellulosic fibres greatly outnumber microplastic fibres in the atmosphere

A Simple Sample Preparation Method to Significantly Improve Fourier Transform Infrared (FT-IR) Spectra of Microplastics

First comparison of sampler surface areas for atmospheric microfibre deposition

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