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Mass spectrometric characterization of organosulfates related to secondary organic aerosol from isoprene
Author(s) -
Safi Shalamzari Mohammad,
Ryabtsova Oxana,
Kahnt Ariane,
Vermeylen Reinhilde,
Hérent MarieFrance,
QuetinLeclercq Joëlle,
Van der Veken Pieter,
Maenhaut Willy,
Claeys Magda
Publication year - 2013
Publication title -
rapid communications in mass spectrometry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.528
H-Index - 136
eISSN - 1097-0231
pISSN - 0951-4198
DOI - 10.1002/rcm.6511
Subject(s) - chemistry , isoprene , glycolic acid , mass spectrometry , crotonaldehyde , electrospray ionization , derivatization , particulates , aerosol , chromatography , organic chemistry , lactic acid , biology , bacteria , copolymer , catalysis , genetics , polymer
RATIONALE A considerable fraction of atmospheric particulate fine matter consists of organosulfates, with some of the most polar ones originating from the oxidation of isoprene. Their structural characterization provides insights into the nature of gas‐phase precursors as well as into formation pathways. METHODS The structures of unknown polar organosulfates present in ambient particulate fine matter were characterized using liquid chromatography/(−)electrospray ionization mass spectrometry (LC/(−)ESI‐MS), including ion trap MS n and accurate mass measurements, derivatization of the carbonyl group into 2,4‐dinitrophenylhydrazones, detailed interpretation of the MS data, and in a selected case comparison of their LC and MS behavior with that of synthesized reference compounds. RESULTS Polar organosulfates with molecular weights (MWs) of 156, 170, 184 and 200 were attributed to/or confirmed as derivatives of glycolic acid (156), lactic acid (170), 1,2‐dihydroxy‐3‐butanone (184), glycolic acid glycolate (200), 2‐methylglyceric acid (200), and 2,3‐dihydroxybutanoic acid (200). In the case of the MW 184 compound an unambiguous assignment was obtained through synthesis of reference compounds. CONCLUSIONS A more complete structural characterization of polar organosulfates that originate from isoprene secondary organic aerosol was achieved. An important atmospheric finding is the presence of an organosulfate that is related to methyl vinyl ketone, a major gas‐phase oxidation product of isoprene. In addition, minor polar organosulfates related to crotonaldehyde were identified. Copyright © 2013 John Wiley & Sons, Ltd.