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 …

Furans are predominant heterocyclic volatile organic compounds in the atmosphere from
both primary and secondary sources, such as direct emissions from wildfires and …

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 …

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 …

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 …

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 …

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 …

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 …

Nighttime atmospheric processing enhances the formation of brown carbon aerosol (BrC) in
biomass burning plumes. Heterocyclic compounds, a group of volatile organic compounds …

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 …