Gaseous
oxygenated
organic
molecules
(OOMs)
are
crucial
precursors
of
atmospheric
aerosols.
OOMs
in
urban
atmospheres
have
complex
compositions,
posing
challenges
to
understanding
their
formation,
evolution,
and
influences.
In
this
study,
we
identify
2403
gaseous
Beijing
using
online
nitrate-based
chemical
ionization
Orbitrap
mass
spectrometry
based
on
one-year
measurements.
We
find
that
can
be
identified
with
higher
accuracy
wider
coverage,
compared
previously
used
spectrometry.
With
optimized
OOM
resolving
capabilities,
previous
knowledge
expanded.
First,
clear
homologous
oxygen-addition
characteristics
the
revealed.
Second,
lower
concentrations
or
masses
characterized
high
confidence,
e.g.,
above
350
Da.
particular,
dimers
(e.g.,
C
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
123(4), P. 1635 - 1679
Published: Jan. 11, 2023
Organic
peroxides
(POs)
are
organic
molecules
with
one
or
more
peroxide
(−O–O−)
functional
groups.
POs
commonly
regarded
as
chemically
labile
termination
products
from
gas-phase
radical
chemistry
and
therefore
serve
temporary
reservoirs
for
oxidative
radicals
(HOx
ROx)
in
the
atmosphere.
Owing
to
their
ubiquity,
active
gas-particle
partitioning
behavior,
reactivity,
key
reactive
intermediates
atmospheric
multiphase
processes
determining
life
cycle
(formation,
growth,
aging),
climate,
health
impacts
of
aerosol.
However,
there
remain
substantial
gaps
origin,
molecular
diversity,
fate
due
complex
nature
dynamic
behavior.
Here,
we
summarize
current
understanding
on
POs,
a
focus
identification
quantification,
state-of-the-art
analytical
developments,
molecular-level
formation
mechanisms,
chemical
transformation
pathways,
well
environmental
impacts.
We
find
that
interactions
SO2
transition
metal
ions
generally
fast
PO
pathways
liquid
water,
lifetimes
estimated
be
minutes
hours,
while
hydrolysis
is
particularly
important
α-substituted
hydroperoxides.
Meanwhile,
photolysis
thermolysis
likely
minor
sinks
POs.
These
distinctly
different
fates,
such
reaction
OH
radicals,
which
highlights
need
understand
By
summarizing
advances
remaining
challenges
investigation
propose
future
research
priorities
regarding
fate,
Atmospheric chemistry and physics,
Journal Year:
2022,
Volume and Issue:
22(15), P. 10077 - 10097
Published: Aug. 5, 2022
Abstract.
Oxygenated
organic
molecules
(OOMs)
are
crucial
for
atmospheric
new
particle
formation
and
secondary
aerosol
(SOA)
growth.
Therefore,
understanding
their
chemical
composition,
temporal
behavior,
sources
is
of
great
importance.
Previous
studies
on
OOMs
mainly
focus
environments
where
biogenic
predominant,
yet
sites
with
dominant
anthropogenic
emissions,
such
as
megacities,
have
been
lacking.
Here,
we
conducted
long-term
measurements
OOMs,
covering
four
seasons
the
year
2019,
in
urban
Beijing.
The
OOM
concentration
was
found
to
be
highest
summer
(1.6×108
cm−3),
followed
by
autumn
(7.9×107
spring
(5.7×107
cm−3)
winter
(2.3×107
suggesting
that
enhanced
photo-oxidation
together
rise
temperature
promote
OOMs.
Most
contained
5
10
carbon
atoms
3
7
effective
oxygen
(nOeff=nO-2×nN).
average
nOeff
increased
increasing
capacity,
which
lowest
autumn.
By
performing
a
newly
developed
workflow,
were
classified
into
following
types:
aromatic
aliphatic
isoprene
monoterpene
Among
them,
(29
%–41
%)
(26
main
contributors
all
seasons,
indicating
Beijing
dominated
sources.
contribution
significantly
(33
%),
much
higher
than
those
other
three
(8
%–10
%).
Concentrations
(0.2–5.3×107
(1.1–8.4×106
lower
reported
at
sites,
they
possessed
nitrogen
contents
due
high
NOx
levels
(9.5–38.3
ppbv
–
parts
per
billion
volume)
With
regard
content
two
composed
CHO
CHON
species,
while
CHON2
ones.
Such
prominent
differences
suggest
varying
pathways
between
these
combining
an
dynamic
model,
estimated
SOA
growth
rate
through
condensation
could
reach
0.64,
0.61,
0.41,
0.30
µg
m−3
h−1
autumn,
summer,
spring,
winter,
respectively.
Despite
similar
concentrations
former
had
volatilities
and,
therefore,
showed
contributions
(46
%–62
latter
(14
%–32
contrast,
limited
low
abundances
or
volatilities,
8
%–12
%
%–5
%,
Overall,
our
results
improve
concentration,
seasonal
variation,
potential
impacts
can
help
formulate
refined
restriction
policy
specific
control
areas.
npj Science of Food,
Journal Year:
2023,
Volume and Issue:
7(1)
Published: June 16, 2023
Authentication
of
meat
floss
origin
has
been
highly
critical
for
its
consumers
due
to
existing
potential
risks
having
allergic
diseases
or
religion
perspective
related
pork-containing
foods.
Herein,
we
developed
and
assessed
a
compact
portable
electronic
nose
(e-nose)
comprising
gas
sensor
array
supervised
machine
learning
with
window
time
slicing
method
sniff
classify
different
products.
We
evaluated
four
methods
data
classification
(i.e.,
linear
discriminant
analysis
(LDA),
quadratic
(QDA),
k-nearest
neighbors
(k-NN),
random
forest
(RF)).
Among
them,
an
LDA
model
equipped
five-window-extracted
feature
yielded
the
highest
accuracy
values
>99%
both
validation
testing
in
discriminating
beef,
chicken,
pork
flosses.
The
obtained
e-nose
results
were
correlated
confirmed
spectral
from
Fourier-transform
infrared
(FTIR)
spectroscopy
chromatography-mass
spectrometry
(GC-MS)
measurements.
found
that
beef
chicken
had
similar
compound
groups
hydrocarbons
alcohol).
Meanwhile,
aldehyde
compounds
(e.g.,
dodecanal
9-octadecanal)
be
dominant
Based
on
performance
evaluation,
system
shows
promising
food
authenticity
testing,
which
paves
way
ubiquitously
detecting
deception
fraud
attempts.
Nature Communications,
Journal Year:
2023,
Volume and Issue:
14(1)
Published: June 8, 2023
The
interaction
between
nitrogen
monoxide
(NO)
and
organic
peroxy
radicals
(RO2)
greatly
impacts
the
formation
of
highly
oxygenated
molecules
(HOM),
key
precursors
secondary
aerosols.
It
has
been
thought
that
HOM
production
can
be
significantly
suppressed
by
NO
even
at
low
concentrations.
Here,
we
perform
dedicated
experiments
focusing
on
from
monoterpenes
concentrations
(0
-
82
pptv).
We
demonstrate
such
enhance
modulating
RO2
loss
favoring
alkoxy
continue
to
autoxidize
through
isomerization.
These
insights
suggest
yields
typical
boreal
forest
emissions
vary
2.5%-6.5%,
will
not
completely
inhibited
high
Our
findings
challenge
notion
monotonically
reduces
extending
knowledge
RO2-NO
interactions
low-NO
regime.
This
represents
a
major
advance
towards
an
accurate
assessment
budgets,
especially
in
environments,
which
prevails
pre-industrial
atmosphere,
pristine
areas,
upper
boundary
layer.
Reviews of Modern Physics,
Journal Year:
2023,
Volume and Issue:
95(4)
Published: Nov. 9, 2023
Atmospheric
nanoparticles
can
serve
as
nuclei
for
cloud
droplets,
thereby
inducing
significant
but
uncertain
effects
on
the
radiative
forcing
of
climate
system.
This
article
focuses
physicochemical
processes
that
govern
growth
these
particles
from
formation
molecular
clusters
until
reach
sizes
where
they
act
condensation
nuclei.
The
review
describes
latest
developments
in
measurement
and
modeling
connects
domains
to
large-scale
simulations
such
Earth
system
models.
authors
recommend
closer
coordination
among
laboratory
studies,
atmospheric
measurements,
understand
importance
Atmospheric chemistry and physics,
Journal Year:
2022,
Volume and Issue:
22(9), P. 6001 - 6020
Published: May 6, 2022
Abstract.
β-caryophyllene
(BCP)
is
one
of
the
most
important
sesquiterpenes
(SQTs)
in
atmosphere,
with
a
large
potential
contribution
to
secondary
organic
aerosol
(SOA)
formation
mainly
from
reactions
ozone
(O3)
and
nitrate
radicals
(NO3).
In
this
work,
we
study
temperature
dependence
kinetics
BCP
ozonolysis,
SOA
yields,
chemical
composition
dark
absence
presence
nitrogen
oxides
including
We
cover
range
213–313
K,
representative
tropospheric
conditions.
The
oxidized
components
both
gas
particle
phases
were
characterized
on
molecular
level
by
ionization
mass
spectrometer
equipped
filter
inlet
for
gases
aerosols
using
iodide
as
reagent
ion
(FIGAERO-iodide-CIMS).
batch
mode
experiments
conducted
84.5
m3
aluminium
simulation
chamber
AIDA
at
Karlsruhe
Institute
Technology
(KIT).
oxides,
temperature-dependent
rate
coefficient
endocyclic
double
bond
reacting
between
243–313
K
negatively
correlated
temperature,
corresponding
following
Arrhenius
equation:
k=
(1.6
±
0.4)
×
10−15
exp((559
97)/T).
yields
increase
16
5
%
37
11
%,
temperatures
decreasing
313
243
total
10
µg
m−3.
variation
ozonolysis
leads
substantial
impact
abundance
individual
molecules.
monomers
C14−15H22−24O3−7
(37.4
%),
dimers
C28−30H44−48O5−9
(53.7
trimers
C41−44H62−66O9−11
(8.6
%)
are
abundant
phase
213
K.
At
observed
more
(mainly
C14−15H22−24O6−9,
67.5
C27−29H42−44O9−11,
27.6
highly
molecules
(HOMs;
C14H22O7,9,
C15H22O7,9C15H24O7,9),
which
can
be
formed
via
hydrogen
shift
mechanisms,
but
no
significant
trimers.
organonitrate
fraction
increased
3
12
49
respectively.
Most
organonitrates
C15
skeletons
only
group.
More
oxygenated
higher
temperatures,
their
signal-weighted
O:C
atomic
ratio
increasing
0.41
0.51
New
dimeric
trimeric
species
without
atoms
(C20,
C35)
298–313
indicating
new
reaction
pathways.
Overall,
our
results
show
that
lead
relatively
small
decrease
strong
yields.
contrast,
HOMs
increases
significantly
temperature.
Environmental Science & Technology,
Journal Year:
2023,
Volume and Issue:
57(20), P. 7764 - 7776
Published: May 8, 2023
Oxygenated
organic
molecules
(OOMs)
are
critical
intermediates
linking
volatile
compound
oxidation
and
secondary
aerosol
(SOA)
formation.
Yet,
the
understanding
of
OOM
components,
formation
mechanism,
impacts
still
limited,
especially
for
urbanized
regions
with
a
cocktail
anthropogenic
emissions.
Herein,
ambient
measurements
OOMs
were
conducted
at
regional
background
site
in
South
China
2018.
The
molecular
characteristics
revealed
dominant
nitrogen-containing
products,
influences
different
factors
on
composition
state
elucidated.
Positive
matrix
factorization
analysis
resolved
complex
species
to
featured
fingerprint
from
pathways.
A
new
method
was
developed
identify
key
functional
groups
OOMs,
which
successfully
classified
majority
into
carbonyls
(8%),
hydroperoxides
(7%),
nitrates
(17%),
peroxyl
(10%),
dinitrates
(13%),
aromatic
ring-retaining
(6%),
terpenes
(7%).
volatility
estimation
improved
based
their
identified
used
simulate
growth
process
contributed
by
condensation
those
low-volatile
OOMs.
results
demonstrate
predominant
role
contributing
sub-100
nm
particle
SOA
highlight
importance
products
multistep
oxidation.
Atmospheric chemistry and physics,
Journal Year:
2025,
Volume and Issue:
25(4), P. 2707 - 2724
Published: March 3, 2025
Abstract.
Solid
fuel
(SF)
combustions,
including
coal
and
biomass,
are
important
sources
of
pollutants
in
the
particle
gas
phase
therefore
have
significant
implications
for
air
quality,
climate,
human
health.
In
this
study,
we
systematically
examined
gas-phase
emissions,
using
Vocus
proton-transfer-reaction
time-of-flight
(PTR-TOF)
mass
spectrometer,
from
a
variety
solid
fuels,
beech
logs,
spruce/pine
branches
needles,
straw,
cow
dung,
coal.
The
average
emission
factors
(EFs)
organic
vapors
ranged
4.8
to
74.2
g
kg−1,
depending
on
combustion
phases
types.
Despite
slight
differences
modified
efficiency
(MCE)
some
experiments,
increasing
EFs
were
observed
with
lower
MCE.
relative
contribution
different
classes
showed
large
similarities
between
logs
stove
burning,
change
observed.
CxHyOz
family
is
most
abundant
group
vapor
emitted
all
SF
combustion.
However,
among
these
greater
nitrogen-containing
species
CxHy
families
(related
polycyclic
aromatic
hydrocarbons)
dung
burning
respectively.
Intermediate-volatility
compounds
(IVOCs)
constituted
fraction
emissions
combustion,
ranging
12.6
%
39.3
%.
This
was
particularly
notable
needles
(39.3
%)
(31.1
%).
Using
Mann–Whitney
U
test
studied
identified
specific
potential
new
markers
fuels
based
measurements.
product
pyrolysis
coniferyl-type
lignin
extract
cedar
pine
needle
as
open
(e.g.,
C10H14O2,
C11H14O2,
C10H10O2).
(C9H12O)
marker
log
burning.
Many
series
homologues
C10H11–21NO,
C12H11–21N,
C11H11–23NO,
C15H15–31N)
acetonitrile,
acrylonitrile,
propanenitrile,
methylpentanenitrile)
specifically
emissions.
Polycyclic
hydrocarbons
(PAHs)
9–12
carbons
significantly
higher
abundance
compared
other
fuels.
composition
reflects
burned
types
can
help
constrain
regional
models.
