Photocatalytic reduction of oxidative potential of particulate matter 2.5 (PM<sub>2.5</sub>)

MISAWA Kazuhiro, SOHARA Koki, KUMAI Yuki, KUSUKUBO Yuki, SEKINE Yoshika

doi:10.7879/siej.22.15

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Other Title

光触媒反応による微小粒子状物質(PM<sub>2.5</sub>)の活性酸素産生能の低減
光触媒反応による微小粒子状物質(PM[2.5])の活性酸素産生能の低減
ヒカリショクバイハンノウニヨルビショウリュウシジョウブッシツ(PM[2.5])ノカッセイサンソサンセイノウノテイゲン

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Oxidative stress induced by fine particulate matter 2.5 (PM_2.5) is a potential cause of adverse health effects due to production of reactive oxygen species (ROS). This study aimed to investigate effect of photocatalytic reaction on the oxidative potential (OP) of PM_2.5 collected on TiO₂ supporting quartz fibre filter. The OP of PM_2.5 was measured by dithiothreitol assay coupled with a flow injection analysis. The results showed OP of PM_2.5 collected in Kanagawa, Japan ranged from 0.18 to 0.31 nmol min^-1 m^-3 with a median of 0.21 nmol min^-1 m^-3 (n=9). After irradiating ultraviolet ray (UV) onto the surface of PM_2.5 on the TiO₂ filter for 3 days, the OP significantly reduced to 0.088 - 0.19 nmol min^-1 m^-3 with a median of 0.15 nmol min^-1 m^-3 (p＝0.008). However, the reduction in OP was not monotonous; temporally increased at 5 days and then decreased with duration of UV irradiation. This suggests the ROS producing substances can be removed by the photocatalytic reaction, whilst OH radicals generated during UV-irradiation may produce the ROS producing substances, such as quinones from polycyclic aromatic hydrocarbons co-exiting in PM_2.5 particles.

Journal

Indoor Environment

Indoor Environment 22 (1), 15-22, 2019

Society of Indoor Environment, Japan

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