Issue 12, 2024

Enhanced detection of aromatic oxidation products using NO3 chemical ionization mass spectrometry with limited nitric acid

Abstract

Nitrate ion-based chemical ionization mass spectrometry (NO3-CIMS) is widely used for detection of highly oxygenated organic molecules (HOMs). HOMs are known to participate in molecular clustering and new particle formation and growth, and hence understanding the formation pathways and amounts of these compounds in the atmosphere is essential. However, the absence of analytical standards prevents robust quantification of HOM concentrations. In addition, nitrate-based ionization is usually very selective towards the most oxygenated molecules and blind to less oxygenated compounds hindering the investigation of molecular formation pathways. Here, we explore varying concentrations of nitric acid reagent gas in the sheath flow of a chemical ionization inlet as a method for detecting a wider range of oxidation products in laboratory-simulated oxidation of benzene and naphthalene. When the concentration of reagent nitric acid is reduced, we observe an increase in signals of many oxidation products for both precursors suggesting that they are not detected at the collision limit. The sensitivity of naphthalene oxidation products is enhanced to a larger extent than that of benzene products. This enhancement in sensitivity has a negative relationship with molecular oxygen content, the oxygen-to-carbon ratio, the oxidation state of carbon, and lowered volatility. In addition, the sensitivity enhancement is lower for species that contain more exchangeable H-atoms, particularly for accretion products. While more experimental investigations are needed for providing the relationship between enhancement ratios and instrumental sensitivities, we suggest this method as a tool for routine check of collision-limited sensitivities and enhanced detection of lower-oxygenated species.

Graphical abstract: Enhanced detection of aromatic oxidation products using NO3− chemical ionization mass spectrometry with limited nitric acid

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Article information

Article type
Paper
Submitted
20 Jun 2024
Accepted
15 Oct 2024
First published
15 Oct 2024
This article is Open Access
Creative Commons BY license

Environ. Sci.: Atmos., 2024,4, 1368-1381

Enhanced detection of aromatic oxidation products using NO3 chemical ionization mass spectrometry with limited nitric acid

O. Garmash, A. Kumar, S. Jha, S. Barua, N. Hyttinen, S. Iyer and M. Rissanen, Environ. Sci.: Atmos., 2024, 4, 1368 DOI: 10.1039/D4EA00087K

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