Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry

Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry

The elemental composition of organic material in environmental samples – including atmospheric organic aerosol, dissolved organic matter, and other complex mixtures – provides insights into their sources and environmental processing. However, standard analytical techniques for measuring elemental ra...

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Main Authors: Ridley, Kelsey J., Canagaratna, Manjula R., Jayne, John T., Croteau, Philip L., Worsnop, Douglas R., Budisulistiorini, Sri Hapsari, Surratt, Jason D., Follett, Christopher L., Repeta, Daniel J., Kroll, Jesse H., O’Brien, Rachel E.
Other Authors: Earth Observatory of Singapore
Format: Article
Language:English
Published: 2019
Subjects:
Ultrasonic
Aerosol
Engineering::Environmental engineering
Online Access:https://hdl.handle.net/10356/87189
http://hdl.handle.net/10220/49881
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-871892020-09-26T21:30:29Z Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry Ridley, Kelsey J. Canagaratna, Manjula R. Jayne, John T. Croteau, Philip L. Worsnop, Douglas R. Budisulistiorini, Sri Hapsari Surratt, Jason D. Follett, Christopher L. Repeta, Daniel J. Kroll, Jesse H. O’Brien, Rachel E. Earth Observatory of Singapore Ultrasonic Aerosol Engineering::Environmental engineering The elemental composition of organic material in environmental samples – including atmospheric organic aerosol, dissolved organic matter, and other complex mixtures – provides insights into their sources and environmental processing. However, standard analytical techniques for measuring elemental ratios typically require large sample sizes (milligrams of material or more). Here we characterize a method for measuring elemental ratios in environmental samples, requiring only micrograms of material, using a small-volume nebulizer (SVN). The technique uses ultrasonic nebulization of samples to generate aerosol particles (100–300 nm diameter), which are then analyzed using an aerosol mass spectrometer (AMS). We demonstrate that the technique generates aerosol from complex organic mixtures with minimal changes to the elemental composition of the organic material and that quantification is possible using internal standards (e.g., NH154NO3). Sample volumes of 2–4 µL with total solution concentrations of at least 0.2 g L−1 form sufficient particle mass for elemental ratio measurement by the AMS, despite only a small fraction (∼ 0.1 %) of the sample forming fine particles after nebulization (with the remainder ending up as larger droplets). The method was applied to aerosol filter extracts from the field and laboratory, as well as to the polysaccharide fraction of dissolved organic matter (DOM) from the North Pacific Ocean. In the case of aerosol particles, the mass spectra and elemental ratios from the SVN–AMS agree with those from online AMS sampling. Similarly, for DOM, the elemental ratios determined from the SVN–AMS agree with those determined using combustion analysis. The SVN–AMS provides a platform for the rapid quantitative analysis of the elemental composition of complex organic mixtures and non-refractory inorganic salts from microgram samples with applications that include analysis of aerosol extracts and terrestrial, aquatic, and atmospheric dissolved organic matter. Published version 2019-09-05T05:00:09Z 2019-12-06T16:36:52Z 2019-09-05T05:00:09Z 2019-12-06T16:36:52Z 2019 Journal Article O’Brien, R. E., Ridley, K. J., Canagaratna, M. R., Jayne, J. T., Croteau, P. L., Worsnop, D. R., . . . Kroll, J. H. (2019). Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry. Atmospheric Measurement Techniques, 12(3), 1659-1671. doi:10.5194/amt-12-1659-2019 1867-1381 https://hdl.handle.net/10356/87189 http://hdl.handle.net/10220/49881 10.5194/amt-12-1659-2019 en Atmospheric Measurement Techniques © 2019 The Author(s). This work is distributed under the Creative Commons Attribution 4.0 License. 13 p. application/pdf
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Ultrasonic
Aerosol
Engineering::Environmental engineering
spellingShingle Ultrasonic
Aerosol
Engineering::Environmental engineering
Ridley, Kelsey J.
Canagaratna, Manjula R.
Jayne, John T.
Croteau, Philip L.
Worsnop, Douglas R.
Budisulistiorini, Sri Hapsari
Surratt, Jason D.
Follett, Christopher L.
Repeta, Daniel J.
Kroll, Jesse H.
O’Brien, Rachel E.
Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry
description The elemental composition of organic material in environmental samples – including atmospheric organic aerosol, dissolved organic matter, and other complex mixtures – provides insights into their sources and environmental processing. However, standard analytical techniques for measuring elemental ratios typically require large sample sizes (milligrams of material or more). Here we characterize a method for measuring elemental ratios in environmental samples, requiring only micrograms of material, using a small-volume nebulizer (SVN). The technique uses ultrasonic nebulization of samples to generate aerosol particles (100–300 nm diameter), which are then analyzed using an aerosol mass spectrometer (AMS). We demonstrate that the technique generates aerosol from complex organic mixtures with minimal changes to the elemental composition of the organic material and that quantification is possible using internal standards (e.g., NH154NO3). Sample volumes of 2–4 µL with total solution concentrations of at least 0.2 g L−1 form sufficient particle mass for elemental ratio measurement by the AMS, despite only a small fraction (∼ 0.1 %) of the sample forming fine particles after nebulization (with the remainder ending up as larger droplets). The method was applied to aerosol filter extracts from the field and laboratory, as well as to the polysaccharide fraction of dissolved organic matter (DOM) from the North Pacific Ocean. In the case of aerosol particles, the mass spectra and elemental ratios from the SVN–AMS agree with those from online AMS sampling. Similarly, for DOM, the elemental ratios determined from the SVN–AMS agree with those determined using combustion analysis. The SVN–AMS provides a platform for the rapid quantitative analysis of the elemental composition of complex organic mixtures and non-refractory inorganic salts from microgram samples with applications that include analysis of aerosol extracts and terrestrial, aquatic, and atmospheric dissolved organic matter.
author2 Earth Observatory of Singapore
author_facet Earth Observatory of Singapore
Ridley, Kelsey J.
Canagaratna, Manjula R.
Jayne, John T.
Croteau, Philip L.
Worsnop, Douglas R.
Budisulistiorini, Sri Hapsari
Surratt, Jason D.
Follett, Christopher L.
Repeta, Daniel J.
Kroll, Jesse H.
O’Brien, Rachel E.
format Article
author Ridley, Kelsey J.
Canagaratna, Manjula R.
Jayne, John T.
Croteau, Philip L.
Worsnop, Douglas R.
Budisulistiorini, Sri Hapsari
Surratt, Jason D.
Follett, Christopher L.
Repeta, Daniel J.
Kroll, Jesse H.
O’Brien, Rachel E.
author_sort Ridley, Kelsey J.
title Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry
title_short Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry
title_full Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry
title_fullStr Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry
title_full_unstemmed Ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry
title_sort ultrasonic nebulization for the elemental analysis of microgram-level samples with offline aerosol mass spectrometry
publishDate 2019
url https://hdl.handle.net/10356/87189
http://hdl.handle.net/10220/49881
_version_ 1681057668624547840

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