Secondary brown carbon formation from photooxidation of furans from biomass burning
Furans are a major class of volatile organic compounds emitted from biomass burning. Their
high reactivity with atmospheric oxidants leads to the formation of secondary organic aerosol …
high reactivity with atmospheric oxidants leads to the formation of secondary organic aerosol …
Effects of nitrate radical levels and pre-existing particles on secondary Brown Carbon Formation from nighttime oxidation of furan
Furans are predominant heterocyclic volatile organic compounds in the atmosphere from
both primary and secondary sources, such as direct emissions from wildfires and …
both primary and secondary sources, such as direct emissions from wildfires and …
Secondary organic aerosol formation from reaction of 3-methylfuran with nitrate radicals
A significant amount of furan species is emitted from biomass burning. They are highly
reactive to hydroxyl (OH) and nitrate radicals (NO3), which can lead to the formation of …
reactive to hydroxyl (OH) and nitrate radicals (NO3), which can lead to the formation of …
[HTML][HTML] Secondary organic aerosol formation from photooxidation of furan: effects of NOx and humidity
Atmospheric furan is a primary and secondary pollutant in the atmosphere, and its emission
contributes to the formation of ultrafine particles. We investigate the effects of NO x level and …
contributes to the formation of ultrafine particles. We investigate the effects of NO x level and …
Secondary organic aerosol formation from photooxidation of furan: effects of NOx level and humidity
Atmospheric furan is both primary and secondary pollutants in the atmosphere, and their
emission contributes to the formation of ultrafine particles and ground-level ozone. We …
emission contributes to the formation of ultrafine particles and ground-level ozone. We …
Relative Humidity Modulates the Physicochemical Processing of Secondary Brown Carbon Formation from Nighttime Oxidation of Furan and Pyrrole
Light-absorbing secondary organic aerosols (SOAs), also known as secondary brown
carbon (BrC), are major components of wildfire smoke that can have a significant impact on …
carbon (BrC), are major components of wildfire smoke that can have a significant impact on …
Joint impact of atmospheric SO 2 and NH 3 on the formation of nanoparticles from photo-oxidation of a typical biomass burning compound
X Jiang, C Lv, B You, Z Liu, X Wang… - Environmental Science …, 2020 - pubs.rsc.org
The presence of atmospheric inorganic pollutants, such as SO2 and NH3 could affect the
nanoparticles formation and their atmospheric abundance. In the present study, the joint …
nanoparticles formation and their atmospheric abundance. In the present study, the joint …
Emissions and atmospheric chemistry of furanoids from biomass burning: Insights from laboratory to atmospheric observations
MN Romanias, MM Coggon, F Al Ali… - ACS Earth and Space …, 2024 - ACS Publications
Furanoids are a class of reactive volatile organic compounds that are major products from
the pyrolysis and combustion of biomass polymers, including cellulose, hemicellulose, and …
the pyrolysis and combustion of biomass polymers, including cellulose, hemicellulose, and …
Brown carbon formation from nighttime chemistry of unsaturated heterocyclic volatile organic compounds
Nighttime atmospheric processing enhances the formation of brown carbon aerosol (BrC) in
biomass burning plumes. Heterocyclic compounds, a group of volatile organic compounds …
biomass burning plumes. Heterocyclic compounds, a group of volatile organic compounds …
Development and evaluation of a detailed mechanism for gas-phase atmospheric reactions of furans
Furan and its alkyl derivatives (furans) are emitted to the atmosphere from multiple sources
and can exist in sufficient quantities to affect atmospheric oxidant levels and secondary …
and can exist in sufficient quantities to affect atmospheric oxidant levels and secondary …