Size-Resolved Single-Particle Fluorescence Spectrometer for Real-Time Analysis of Bioaerosols: Laboratory Evaluation and Atmospheric Measurements

Characteristic particle size, fluorescence intensity, and fluorescence spectra are important features to detect and categorize bioaerosols. A prototype size-resolved single-particle fluorescence spectrometer (S2FS) was developed to simultaneously measure aerodynamic diameters and fluorescence spectr...

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Published inEnvironmental science & technology Vol. 53; no. 22; pp. 13257 - 13264
Main Authors Zhang, Minghui, Klimach, Thomas, Ma, Nan, Könemann, Tobias, Pöhlker, Christopher, Wang, Zhibin, Kuhn, Uwe, Scheck, Nelli, Pöschl, Ulrich, Su, Hang, Cheng, Yafang
Format Journal Article
LanguageEnglish
Published Easton American Chemical Society 19.11.2019
Subjects
Airborne microorganisms
Bioaerosols
Charge coupled devices
Diameters
Emission measurements
Emission spectra
Fluorescence
Particulates
Pollen
Thunderstorms
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Summary:Characteristic particle size, fluorescence intensity, and fluorescence spectra are important features to detect and categorize bioaerosols. A prototype size-resolved single-particle fluorescence spectrometer (S2FS) was developed to simultaneously measure aerodynamic diameters and fluorescence spectra. Emission spectra are dispersed in 512 channels from 370 to 610 nm, where a major portion of biological fluorescence emission occurs. The S2FS consists of an aerodynamic particle sizer and a fluorescence spectrometer with a 355 nm laser excitation source and an intensified charge-coupled device as the detector. Highly fluorescent particles, such as Ambrosia artemisiifolia pollen and Olea europaea pollen, can be distinguished by the S2FS on a single-particle level. For weakly fluorescent particles, fluorescence spectra can only be obtained by averaging multiple particles (between 100 and 3000) of the same kind. Preliminary ambient measurements in Mainz (Germany, central Europe) show that an emission peak at ∼440 nm was frequently observed for fluorescent fine particles (0.5–1 μm). Fluorescent fine particles accounted for 2.8% on average based on the number fraction in the fine mode. Fluorescent coarse particles (>1 μm) accounted for 8.9% on average based on the number fraction, with strongest occurrence observed during a thunderstorm and in the morning.
ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.9b01862