Taking a look at the surface: μ-XRF mapping and fluorine K-edge μ-XANES spectroscopy of organofluorinated compounds in environmental samples and consumer products†

IF 4.3 3区 环境科学与生态学 Q1 CHEMISTRY, ANALYTICAL
Philipp Roesch, Christian Vogel, Philipp Wittwer, Thomas Huthwelker, Camelia N. Borca, Thomas Sommerfeld, Stephanie Kluge, Christian Piechotta, Ute Kalbe and Franz-Georg Simon
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Abstract

For the first time, μ-X-ray fluorescence (μ-XRF) mapping combined with fluorine K-edge μ-X-ray absorption near-edge structure (μ-XANES) spectroscopy was applied to depict per- and polyfluoroalkyl substance (PFAS) contamination and inorganic fluoride in sample concentrations down to 100 μg kg?1 fluoride. To demonstrate the matrix tolerance of the method, several PFAS contaminated soil and sludge samples as well as selected consumer product samples (textiles, food contact paper and permanent baking sheets) were investigated. μ-XRF mapping allows for a unique element-specific visualization at the sample surface and enables localization of fluorine containing compounds to a depth of 1 μm. Manually selected fluorine rich spots were subsequently analyzed via fluorine K-edge μ-XANES spectroscopy. To support spectral interpretation with respect to inorganic and organic chemical distribution and compound class determination, linear combination (LC) fitting was applied to all recorded μ-XANES spectra. Complementarily, solvent extracts of all samples were target-analyzed via LC-MS/MS spectrometry. The detected PFAS sum values range from 20 to 1136 μg kg?1 dry weight (dw). All environmentally exposed samples revealed a higher concentration of PFAS with a chain length > C8 (e.g. 580 μg kg?1 dw PFOS for Soil1), whereas the consumer product samples showed a more uniform distribution with regard to chain lengths from C4 to C8. Independent of quantified PFAS amounts via target analysis, μ-XRF mapping combined with μ-XANES spectroscopy was successfully applied to detect both point-specific concentration maxima and evenly distributed surface coatings of fluorinated organic contaminants in the corresponding samples.

Abstract Image

环境样品和消费品中有机氟化合物的表面:μ-XRF制图和氟k边μ-XANES光谱研究
首次将μ- x射线荧光(μ-XRF)图谱与氟k边μ- x射线吸收近边结构(μ-XANES)光谱相结合,用于描述样品浓度低至100 μg kg?1氟化。为了证明该方法的基质耐受性,研究人员对几种PFAS污染的土壤和污泥样本以及选定的消费品样本(纺织品、食品接触纸和永久烘焙纸)进行了调查。μ-XRF映射允许在样品表面进行独特的元素特异性可视化,并使含氟化合物的定位深度达到1 μm。人工选择富氟点,通过氟K-edge μ-XANES光谱分析。为了支持无机和有机化学分布的光谱解释和化合物类别的确定,对所有记录的μ-XANES光谱进行了线性组合(LC)拟合。所有样品的溶剂提取物均采用LC-MS/MS光谱法进行目标分析。检测到的PFAS总和为20 ~ 1136 μg kg?1干重(dw)。所有环境暴露的样品都显示出更高的PFAS浓度,其链长为>C8(例如580 μg kg?土壤中的全氟辛烷磺酸1),而消费品样品的链长从C4到C8的分布更为均匀。独立于通过靶分析定量的PFAS量,μ-XRF图谱结合μ-XANES光谱成功地检测了相应样品中氟化有机污染物的点特异性浓度最大值和均匀分布的表面涂层。
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来源期刊
Environmental Science: Processes & Impacts
Environmental Science: Processes & Impacts CHEMISTRY, ANALYTICAL-ENVIRONMENTAL SCIENCES
CiteScore
9.50
自引率
3.60%
发文量
202
审稿时长
1 months
期刊介绍: Environmental Science: Processes & Impacts publishes high quality papers in all areas of the environmental chemical sciences, including chemistry of the air, water, soil and sediment. We welcome studies on the environmental fate and effects of anthropogenic and naturally occurring contaminants, both chemical and microbiological, as well as related natural element cycling processes.
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