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Heterogeneous photochemical reaction of ozone with anthracene adsorbed on mineral dust
Abstract The heterogeneous reactions of O3 with anthracene adsorbed on TiO2 and on Asian dust storm particles were investigated in the dark and in the presence of light. The reaction rate constants of the heterogeneous reaction between O3 and anthracene adsorbed on TiO2 were increased by a factor of 1.5 in the presence of light compared to the dark conditions. Anthraquinone, which was identified as the main surface product of anthracene reacted with O3 in the dark, can react with O3 quickly in the presence of light. The reactions on Asian dust storm particles exhibited pseudo-first-order kinetics for anthracene loss, and the reactions between O3 and anthracene adsorbed on Asian dust storm particles proceed by the Langmuir–Hinshelwood mechanism in the dark and in the presence of light. At extremely high ozone concentrations, the degradation of anthracene is enhanced by a factor of 3 in the presence of light compared to the dark conditions.
Highlights ► Reactions of O3 with anthracene on TiO2 and Asian dust were photo-enhanced. ► Anthraquinone can react with O3 quickly in the presence of light. ► Reactions of O3 with anthracene adsorbed on Asian dust proceed by the L–H mechanism.
Heterogeneous photochemical reaction of ozone with anthracene adsorbed on mineral dust
Abstract The heterogeneous reactions of O3 with anthracene adsorbed on TiO2 and on Asian dust storm particles were investigated in the dark and in the presence of light. The reaction rate constants of the heterogeneous reaction between O3 and anthracene adsorbed on TiO2 were increased by a factor of 1.5 in the presence of light compared to the dark conditions. Anthraquinone, which was identified as the main surface product of anthracene reacted with O3 in the dark, can react with O3 quickly in the presence of light. The reactions on Asian dust storm particles exhibited pseudo-first-order kinetics for anthracene loss, and the reactions between O3 and anthracene adsorbed on Asian dust storm particles proceed by the Langmuir–Hinshelwood mechanism in the dark and in the presence of light. At extremely high ozone concentrations, the degradation of anthracene is enhanced by a factor of 3 in the presence of light compared to the dark conditions.
Highlights ► Reactions of O3 with anthracene on TiO2 and Asian dust were photo-enhanced. ► Anthraquinone can react with O3 quickly in the presence of light. ► Reactions of O3 with anthracene adsorbed on Asian dust proceed by the L–H mechanism.
Heterogeneous photochemical reaction of ozone with anthracene adsorbed on mineral dust
Ma, Jinzhu (author) / Liu, Yongchun (author) / Ma, Qingxin (author) / Liu, Chang (author) / He, Hong (author)
Atmospheric Environment ; 72 ; 165-170
2013-02-24
6 pages
Article (Journal)
Electronic Resource
English
New directions: Mineral dust and ozone – Heterogeneous chemistry
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