Development of correlation spectroscopy (COS) method for analyzing fluorescence excitation emission matrix (EEM): A case study of effluent organic matter (EfOM) ozonation

Two-dimensional correlation spectroscopy (2DCOS) has been used as a powerful tool for analyzing spectral features, but it has never been applied to fluorescence excitation-emission matrix (EEM) data due to the incompatible dimensions. This study first investigated EEM-COS by reducing the dimensions...

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Published in:Chemosphere (Oxford) 2019-08, Vol.228, p.35-43
Main Authors: Yu, Huarong, Qu, Fangshu, Zhang, Xiaolei, Shao, Senlin, Rong, Hongwei, Liang, Heng, Bai, Langming, Ma, Jun
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Language:English
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Effluent organic matter (EfOM)
Excitation-emission matrix (EEM)
Parallel factor analysis (PARAFAC)
Synchronous fluorescence (SF)
Two-dimensional correlation spectroscopy (2DCOS)
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container_title Chemosphere (Oxford)
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creator Yu, Huarong
Qu, Fangshu
Zhang, Xiaolei
Shao, Senlin
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Liang, Heng
Bai, Langming
Ma, Jun
description Two-dimensional correlation spectroscopy (2DCOS) has been used as a powerful tool for analyzing spectral features, but it has never been applied to fluorescence excitation-emission matrix (EEM) data due to the incompatible dimensions. This study first investigated EEM-COS by reducing the dimensions of the EEM (using parallel factor analysis, PARAFAC) for fitting to 2DCOS (EEM-PARAFAC-COS). The fluorescence changes of effluent organic matter (EfOM) during ozonation were studied using EEM-COS and synchronous fluorescence (SF)-2DCOS. The conventionally used SF-2DCOS proved to be biased due to the intrinsic drawback of SF, while the EEM-PARAFAC-COS gave accurate and trustworthy results. Homo-EEM-PARAFAC-COS indicated that the fluorescence protein-like and fulvic-like substances in EfOM were preferentially ozonated compared to humic-like substances. Hetero-EEM-PARAFAC-COS analyses on the EEM, FTIR, UV–vis absorbance, and size-exclusion chromatography showed that the fluorescence protein-like and fulvic-like substances in EfOM were associated with lower molecular weight (MW, ∼0.95 kDa), UV absorbance at ∼280 nm, and more electron-enriched aromatics (with amide and phenolic groups), which explained their ozonation preference, while humic-like substances were related to carboxylic groups, UV absorbance at ∼255 nm, and organics at MW of ∼4.50 kDa. This work demonstrated the great potential of EEM-PARAFAC-COS in studying fluorescence change and correlating fluorescence with other spectra. [Display omitted] •Correlation spectroscopy (COS) analysis on excitation-emission matrix was developed.•Synchronous fluorescence (SF)-2D COS proved to be biased due to drawback of SF.•Excitation emission matrix (EEM)-parallel factor analysis (PARAFAC)-COS proved best.•Protein-like and fulvic-like substances in EfOM were preferred ozonated.•The ozonation priority resulted from lower MW and more electron-enriched aromatics.
doi_str_mv 10.1016/j.chemosphere.2019.04.119
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subjects Effluent organic matter (EfOM)
Excitation-emission matrix (EEM)
Parallel factor analysis (PARAFAC)
Synchronous fluorescence (SF)
Two-dimensional correlation spectroscopy (2DCOS)
title Development of correlation spectroscopy (COS) method for analyzing fluorescence excitation emission matrix (EEM): A case study of effluent organic matter (EfOM) ozonation
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