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固相激发-发射矩阵光谱法用于燃烧气溶胶的化学分析。

Solid-phase excitation-emission matrix spectroscopy for chemical analysis of combustion aerosols.

机构信息

University of Washington, Mechanical Engineering, Seattle, WA, United States of America.

University of Washington, Chemical Engineering, Seattle, WA United States of America.

出版信息

PLoS One. 2021 May 20;16(5):e0251664. doi: 10.1371/journal.pone.0251664. eCollection 2021.

Abstract

Exposure to ultrafine combustion aerosols such as particulate matter (PM) from residential woodburning, forest fires, cigarette smoke, and traffic emission have been linked to adverse health outcomes. Excitation-emission matrix (EEM) spectroscopy presents a sensitive and cost-effective alternative for analysis of PM organic fraction. However, as with other analytical chemistry methods, the miniaturization is hindered by a solvent extraction step and a need for benchtop instrumentation. We present a methodology for collecting and in-situ analysis of airborne nanoparticles that eliminates labor-intensive sample preparation and miniaturizes the detection platform. Nanoparticles are electrostatically collected onto a transparent substrate coated with solid-phase (SP) solvent-polydimethylsiloxane (PDMS). The PM organic fraction is extracted into PDMS and analyzed in-situ, thus avoiding liquid-phase extraction. In the SP-EEM analysis, we evaluated external and internal excitation schemes. Internal excitation shows the lowest scattering interference but leads to signal masking from PDMS fluorescence for λ<250nm. The external excitation EEM spectra are dependent on the excitation light incident angle; ranges of 30-40° and 55-65° show the best results. SP-EEM spectra of woodsmoke and cigarette smoke samples are in good agreement with the EEM spectra of liquid-phase extracts. The SP-EEM technique can be used to develop wearable sensors for exposure assessments and environmental monitoring.

摘要

暴露于超细燃烧气溶胶,如来自住宅燃烧、森林火灾、香烟烟雾和交通排放的颗粒物 (PM),与不良健康后果有关。激发-发射矩阵 (EEM) 光谱是分析 PM 有机部分的一种敏感且具有成本效益的替代方法。然而,与其他分析化学方法一样,由于需要溶剂萃取步骤和台式仪器,因此微型化受到阻碍。我们提出了一种收集和现场分析空气传播纳米颗粒的方法,该方法消除了劳动密集型的样品制备并使检测平台微型化。纳米颗粒通过静电收集到涂有固相 (SP) 溶剂-聚二甲基硅氧烷 (PDMS) 的透明基板上。PM 有机部分被萃取到 PDMS 中并进行现场分析,从而避免了液相萃取。在 SP-EEM 分析中,我们评估了外部和内部激发方案。内部激发显示出最低的散射干扰,但对于 λ<250nm,会导致 PDMS 荧光的信号屏蔽。外部激发 EEM 光谱取决于激发光入射角;30-40°和 55-65°的范围显示出最佳结果。木烟和香烟烟雾样品的 SP-EEM 光谱与液相提取物的 EEM 光谱非常吻合。SP-EEM 技术可用于开发用于暴露评估和环境监测的可穿戴传感器。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e275/8136721/fdda146a4179/pone.0251664.g001.jpg

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