Coupling Effect
of Elemental Carbon and Organic Carbon
on the Changes of Optical Properties and Oxidative Potential of Soot
Particles under Visible Light
posted on 2024-10-21, 11:05authored byRui Tang, Jiong Cao, Jing Shang, Yu Kuang, Hong Geng, Xinghua Qiu
Soot particles, coming from the incomplete combustion
of fossil
or biomass fuels, feature a core–shell structure with inner
elemental carbon (EC) and outer organic carbon (OC). Both EC and OC
are known to be photoactive under solar radiation. However, research
on their coupling effect during photochemical aging remains limited.
This study examines how the optical properties and oxidative potential
(OP) of wood, coal, and diesel soot particles with varying EC and
OC levels are affected by exposure to visible light. Wood soot, which
has the highest OC content, showed the most significant changes in
both optical properties and OP, indicating its highest sensitivity
to visible light aging. Molecular composition analysis revealed that
the reduction of polycyclic aromatic hydrocarbons (PAHs) and methyl-PAHs
primarily affects the optical properties, while oxygenated PAHs play
a major role in OP. Combined with the results from reactive oxygen
species detection, it is suggested that EC initiates photoreactions
by generating superoxide anions, while OC undergoes compositional
changes that result in subsequent atmospheric effects. These findings
enhance our understanding of the photochemical aging process of soot
particles and their implications for climate and health.