Isomeric Identification of the Nitroindole Chromophore in Indole + NO3 Organic Aerosol

• Published in: ACS Physical Chemistry Au Vol. 4; no. 5; pp. 568 - 574
• Main Authors: Dalton, Avery B., Wingen, Lisa M., Nizkorodov, Sergey A.
• Format: Journal Article
• Language: English
• Published: American Chemical Society 25.09.2024
• Subjects: secondary organic aerosol; brown carbon; nitroaromatic compounds; indole; nitrate radical
• ISSN: 2694-2445; 2694-2445
• DOI: 10.1021/acsphyschemau.4c00044

Oxidation of indole by nitrate radical (NO3) was previously proposed to form nitroindole, largely responsible for the brown color of indole secondary organic aerosol (SOA). As there are seven known nitroindole isomers, we used chromatographic separation to show that a single nitroindole isomer is produced in the indole + NO3 reaction and definitively assigned it to 3-nitroindole by comparison with chromatograms of nitroindole standards. Mass spectra of aerosolized 3-nitroindole particles were recorded with an aerosol mass spectrometer and directly compared to mass spectra of SOA from smog chamber oxidation of indole by NO3 in order to help identify peaks unique to nitroindole (m/z 162, 132, and 116). Quantum chemical calculations were done to determine the energetics of hypothesized indole + NO3 intermediates and products. The combination of these data suggests a mechanism, wherein a hydrogen atom is first abstracted from the N–H bond in indole, followed by isomerization to a carbon-centered radical in the 3-position and followed by addition of NO2. Alternative mechanisms involving a direct abstraction of a H atom from a C–H bond or a NO3 addition to the ring are predicted to be energetically unfavorable from large barriers for the initial reaction steps.