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W2767202351 abstract "Determining quantitative molecular composition of atmospheric particles is required for assessing their environmental and health impacts. The presented algorithm was designed to analyse numerous Raman spectra of metal-rich atmospheric particles. Multivariate curve resolution-alternating least squares procedure (MCR-ALS) has been applied to resolve complex data from Raman microanalysis by means of a computer-assisted analytical procedure called Single Particle Analysis (SPA). The SPA – contrary to Raman mapping – provides data in which each single particle is assigned to a single spectrum, in the group with a statistically significant size. During the procedure, the relative contributions of individual compounds in the recorded Raman spectra have been specified. Grouping and relationship determination of the collected data have been performed by hierarchical cluster analysis (HCA) and principal component analysis (PCA). A new methodology is proposed to quantitatively determine the molecular composition and chemical mixing of single airborne particles based on the data from the automated Raman microspectrometry measurements." @default.
W2767202351 created "2017-11-10" @default.
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W2767202351 date "2018-03-01" @default.
W2767202351 modified "2023-09-25" @default.
W2767202351 title "Combining Raman microspectrometry and chemometrics for determining quantitative molecular composition and mixing state of atmospheric aerosol particles" @default.
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W2767202351 cites W1975453939 @default.
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W2767202351 cites W1976138062 @default.
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W2767202351 cites W2021852937 @default.
W2767202351 cites W2023850709 @default.
W2767202351 cites W2025173879 @default.
W2767202351 cites W2033806037 @default.
W2767202351 cites W2035127604 @default.
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W2767202351 cites W2066152371 @default.
W2767202351 cites W2069085911 @default.
W2767202351 cites W2073754357 @default.
W2767202351 cites W2077157131 @default.
W2767202351 cites W2077458217 @default.
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W2767202351 doi "https://doi.org/10.1016/j.microc.2017.10.005" @default.
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