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Detection Methods
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What determines accuracy of chemical identification when using microspectroscopy for the analysis of microplastics?
Chemosphere2022
42 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Win Cowger,
Eunah Lee,
George Sarau,
Dounia Elkhatib,
Amy Lusher
Amy Lusher
Amy Lusher
Dounia Elkhatib,
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Dounia Elkhatib,
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Hannah De Frond,
Amy Lusher
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Wenjian Lao,
Wenjian Lao,
Wenjian Lao,
Wenjian Lao,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Amy Lusher
Amy Lusher
Win Cowger,
Win Cowger,
Susanne M. Brander,
Amy Lusher
Win Cowger,
Win Cowger,
Susanne M. Brander,
Win Cowger,
Amy Lusher
Win Cowger,
Amy Lusher
Susanne M. Brander,
Amy Lusher
Susanne M. Brander,
Win Cowger,
Amy Lusher
Win Cowger,
Win Cowger,
Win Cowger,
Amy Lusher
Win Cowger,
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Susanne M. Brander,
Win Cowger,
Amy Lusher
Amy Lusher
Win Cowger,
Susanne M. Brander,
Win Cowger,
Win Cowger,
Amy Lusher
Win Cowger,
Amy Lusher
Susanne M. Brander,
Susanne M. Brander,
Susanne M. Brander,
Amy Lusher
Susanne M. Brander,
Amy Lusher
Amy Lusher
Amy Lusher
Susanne M. Brander,
Susanne M. Brander,
Susanne M. Brander,
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
Amy Lusher
George Sarau,
George Sarau,
George Sarau,
George Sarau,
George Sarau,
Silke Christiansen,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Wenjian Lao,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Hannah De Frond,
Violet Compton Renick,
Amy Lusher
Sebastian Primpke,
Sebastian Primpke,
Amy Lusher
Amy Lusher
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Win Cowger,
Amy Lusher
Violet Compton Renick,
Susanne M. Brander,
Sebastian Primpke,
Win Cowger,
Amy Lusher
Amy Lusher
Amy Lusher
Silke Christiansen,
Amy Lusher
Amy Lusher
Bridget A. O’Donnell,
Susanne M. Brander,
Sebastian Primpke,
Amy Lusher
Susanne M. Brander,
Susanne M. Brander,
Sebastian Primpke,
Amy Lusher
Hannah De Frond,
Sebastian Primpke,
Sebastian Primpke,
Susanne M. Brander,
Win Cowger,
Susanne M. Brander,
Amy Lusher
Susanne M. Brander,
Sebastian Primpke,
Susanne M. Brander,
Amy Lusher
George Sarau,
Sebastian Primpke,
Susanne M. Brander,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Win Cowger,
Susanne M. Brander,
Amy Lusher
Amy Lusher
Amy Lusher
Sebastian Primpke,
Susanne M. Brander,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Susanne M. Brander,
Win Cowger,
Sebastian Primpke,
Sebastian Primpke,
Amy Lusher
Susanne M. Brander,
Win Cowger,
Sebastian Primpke,
Violet Compton Renick,
Hannah De Frond,
Susanne M. Brander,
Sebastian Primpke,
Susanne M. Brander,
Win Cowger,
Sebastian Primpke,
Susanne M. Brander,
Sebastian Primpke,
Amy Lusher
Susanne M. Brander,
Win Cowger,
Sebastian Primpke,
Amy Lusher
Suja Sukumaran,
Susanne M. Brander,
Amy Lusher
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Hannah De Frond,
Amy Lusher
Win Cowger,
Win Cowger,
Amy Lusher
Amy Lusher
Amy Lusher
Silke Christiansen,
Amy Lusher
Amy Lusher
Sebastian Primpke,
Amy Lusher
George Sarau,
Win Cowger,
Silke Christiansen,
Win Cowger,
Win Cowger,
Win Cowger,
Win Cowger,
Wenjian Lao,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Hannah De Frond,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Susanne M. Brander,
Sebastian Primpke,
Susanne M. Brander,
Susanne M. Brander,
Sebastian Primpke,
Susanne M. Brander,
Susanne M. Brander,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Susanne M. Brander,
Sebastian Primpke,
Florian Vollnhals,
Amy Lusher
Amy Lusher
Amy Lusher
Silke Christiansen,
Sebastian Primpke,
Amy Lusher
Suja Sukumaran,
Win Cowger,
Sebastian Primpke,
Amy Lusher
Amy Lusher
Win Cowger,
Win Cowger,
Susanne M. Brander,
Amy Lusher
Sebastian Primpke,
George Sarau,
Sebastian Primpke,
Suja Sukumaran,
Silke Christiansen,
Wenjian Lao,
Susanne M. Brander,
Sebastian Primpke,
Amy Lusher
Susanne M. Brander,
Sebastian Primpke,
Win Cowger,
Amy Lusher
Win Cowger,
Sebastian Primpke,
Sebastian Primpke,
Amy Lusher
Dounia Elkhatib,
Silke Christiansen,
Amy Lusher
Eunah Lee,
Susanne M. Brander,
Sebastian Primpke,
Amy Lusher
Susanne M. Brander,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Silke Christiansen,
Silke Christiansen,
Amy Lusher
Hannah De Frond,
Hannah De Frond,
Amy Lusher
Win Cowger,
Win Cowger,
Win Cowger,
Susanne M. Brander,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Sebastian Primpke,
Amy Lusher
Steve Barnett,
Sebastian Primpke,
Susanne M. Brander,
Susanne M. Brander,
Amy Lusher
Sebastian Primpke,
Bridget A. O’Donnell,
Amy Lusher
Amy Lusher
Maria Navas-Moreno,
Susanne M. Brander,
Silke Christiansen,
Sebastian Primpke,
Win Cowger,
Keith Rickabaugh,
Keith Rickabaugh,
Sebastian Primpke,
Win Cowger,
Amy Lusher
Silke Christiansen,
Amy Lusher
Sebastian Primpke,
Hannah De Frond,
Sebastian Primpke,
Sebastian Primpke,
Florian Vollnhals,
Amy Lusher
Amy Lusher
Sebastian Primpke,
Keith Rickabaugh,
George Sarau,
Bridget A. O’Donnell,
Keith Rickabaugh,
Amy Lusher
Sebastian Primpke,
George Sarau,
Amy Lusher
Amy Lusher
Hannah De Frond,
Amy Lusher
Amy Lusher
Susanne M. Brander,
Amy Lusher
Eunah Lee,
Amy Lusher
Amy Lusher
Amy Lusher
Wenjian Lao,
Sebastian Primpke,
Silke Christiansen,
Wenjian Lao,
Hannah De Frond,
Win Cowger,
Hannah De Frond,
Hannah De Frond,
Gaurav Amarpuri,
George Sarau,
Sebastian Primpke,
Sebastian Primpke,
Silke Christiansen,
George Sarau,
Amy Lusher
Sebastian Primpke,
Susanne M. Brander,
Silke Christiansen,
Win Cowger,
Susanne M. Brander,
Susanne M. Brander,
Gaurav Amarpuri,
Amy Lusher
Amy Lusher
George Sarau,
George Sarau,
Silke Christiansen,
Silke Christiansen,
Silke Christiansen,
Win Cowger,
Sebastian Primpke,
Amy Lusher
Keith Rickabaugh,
Keith Rickabaugh,
Florian Vollnhals,
Dounia Elkhatib,
Sebastian Primpke,
Eunah Lee,
Sebastian Primpke,
Suja Sukumaran,
Florian Vollnhals,
Amy Lusher
Summary
An interlaboratory study analyzed metadata from microplastic identification using FTIR and Raman microspectroscopy to determine which factors most influenced correct polymer identification. Particle size, polymer type, and operator experience were among the key variables affecting accuracy of chemical identification in drinking water samples.
Study Type
Environmental
Fourier transform infrared (FTIR) and Raman microspectroscopy are methods applied in microplastics research to determine the chemical identity of microplastics. These techniques enable quantification of microplastic particles across various matrices. Previous work has highlighted the benefits and limitations of each method and found these to be complimentary. Within this work, metadata collected within an interlaboratory method validation study was used to determine which variables most influenced successful chemical identification of un-weathered microplastics in simulated drinking water samples using FTIR and Raman microspectroscopy. No variables tested had a strong correlation with the accuracy of chemical identification (r = ≤0.63). The variables most correlated with accuracy differed between the two methods, and include both physical characteristics of particles (color, morphology, size, polymer type), and instrumental parameters (spectral collection mode, spectral range). Based on these results, we provide technical recommendations to improve capabilities of both methods for measuring microplastics in drinking water and highlight priorities for further research. For FTIR microspectroscopy, recommendations include considering the type of particle in question to inform sample presentation and spectral collection mode for sample analysis. Instrumental parameters should be adjusted for certain particle types when using Raman microspectroscopy. For both instruments, the study highlighted the need for harmonization of spectral reference libraries among research groups, including the use of libraries containing reference materials of both weathered plastic and natural materials that are commonly found in environmental samples.