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@ARTICLE{Mentel:189321,
author = {Mentel, T. F. and Springer, M. and Ehn, M. and Kleist, E.
and Pullinen, I. and Kurtén, T. and Rissanen, M. and
Wahner, A. and Wildt, J.},
title = {{F}ormation of highly oxidized multifunctional compounds:
autoxidation of peroxy radicals formed in the ozonolysis of
alkenes $\–$ deduced from structure–product
relationships},
journal = {Atmospheric chemistry and physics / Discussions},
volume = {15},
number = {2},
issn = {1680-7375},
address = {Katlenburg-Lindau},
publisher = {EGU},
reportid = {FZJ-2015-02499},
pages = {2791 - 2851},
year = {2015},
abstract = {It has been postulated that secondary organic particulate
matter plays a pivotal role in the early growth of newly
formed particles in forest areas. The recently detected
class of extremely low volatile organic compounds (ELVOC)
provides the missing organic vapours and possibly
contributes a~significant fraction to atmospheric SOA. ELVOC
are highly oxidized multifunctional molecules (HOM), formed
by sequential rearrangement of peroxy radicals and
subsequent O2 addition. Key for efficiency in early particle
growth is that formation of HOM is induced by one attack of
the oxidant (here O3) and followed by an autoxidation
process involving molecular oxygen. Similar mechanisms were
recently observed and predicted by quantum mechanical
calculations e.g. for isoprene. To assess the atmospheric
importance and therewith the potential generality, it is
crucial to understand the formation pathway of HOM.To
elucidate the formation path of HOM as well as necessary and
sufficient structural prerequisites of their formation we
studied homologues series of cycloalkenes in comparison to
two monoterpenes. We were able to directly observe highly
oxidized multifunctional peroxy radicals with 8 or 10
O-atoms by an Atmospheric Pressure interface High Resolution
Time of Flight Mass Spectrometer equipped with a
NO3−-Chemical Ionization (CI) source. In case of O3 acting
as oxidant the starting peroxy radical is formed on the so
called vinylhydroperoxide path. HOM peroxy radicals and
their termination reactions with other peroxy radicals,
including dimerization, allowed for analysing the observed
mass spectra and narrow down the likely formation path. As
consequence we propose that HOM are multifunctional
percarboxylic acids; with carbonyl-, hydroperoxy-, or
hydroxy-groups arising from the termination steps. We
figured that aldehyde groups facilitate the initial
rearrangement steps. In simple molecules like cyloalkenes
autoxidation was limited to both terminal C-atoms and two
further C-atoms in the respective α-positions. In more
complex molecules containing tertiary H-atoms or small
constraint rings even higher oxidation degree were possible,
either by simple H-shift of the tertiary H-atom or by
initialisation of complex ring-opening reactions.},
cin = {IEK-8 / IBG-2},
ddc = {550},
cid = {I:(DE-Juel1)IEK-8-20101013 / I:(DE-Juel1)IBG-2-20101118},
pnm = {582 - Plant Science (POF3-582) / 243 - Tropospheric trace
substances and their transformation processes (POF3-243) /
HITEC - Helmholtz Interdisciplinary Doctoral Training in
Energy and Climate Research (HITEC) (PHD-PROGRAM-20170404)},
pid = {G:(DE-HGF)POF3-582 / G:(DE-HGF)POF3-243 /
G:(DE-Juel1)HITEC-20170406},
typ = {PUB:(DE-HGF)16},
doi = {10.5194/acpd-15-2791-2015},
url = {https://juser.fz-juelich.de/record/189321},
}
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