Phototransformations of dinitropyrene isomers on models of the atmospheric particulate matter

The 1,6 and 1,8-dinitropyrenes (DNP) isomers are strong mutagens and carcinogens encountered in diesel exhaust and airborne particles. Relative photodegradation rates were determined and some products were characterized when these isomers were irradiated adsorbed onto models of the atmospheric matte...

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Published in:Atmospheric environment (1994) 2013-08, Vol.75, p.171-178
Main Authors: Arce, Rafael, Morel, María
Format: Article
Language:English
Subjects:
Adsorbed
Applied sciences
Atmospheric chemistry
Atmospheric pollution
Dinitropyrenes
Exact sciences and technology
Photodegradation rates
Pollutants physicochemistry study: properties, effects, reactions, transport and distribution
Pollution
Surface phototransformations
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container_title Atmospheric environment (1994)
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description The 1,6 and 1,8-dinitropyrenes (DNP) isomers are strong mutagens and carcinogens encountered in diesel exhaust and airborne particles. Relative photodegradation rates were determined and some products were characterized when these isomers were irradiated adsorbed onto models of the atmospheric matter. These are compared to their photochemical behavior in a polar nonprotic solvent. The 1,8-DNP isomer is three times more reactive than the 1,6-DNP when irradiated adsorbed onto silica gel surfaces, while the reverse order is observed in solution, demonstrating the influence of structural differences and environmental effects on the photoreactivity. Oxygen is a key factor in the formation of pyrenediones from 1,8-DNP in solution and on silica gel which is not the case for 1,6-DNP. The average pore diameter (2.5 versus 6.0 nm) of the silica surfaces induces a significant change in the product distribution and relative yields of 1,8-DNP because pyrenediones or 8-hydroxy-1-nitropyrene are not produced in the smaller pore silica. A 6-hydroxy-1-nitropyrene product is observed both in acidic alumina and silica (6.0 nm) surfaces. On acidic alumina the rates of phototransformation of the isomers are equal, a significant increase in the relative yield of the hydroxynitropyrene product is observed compared to the silica and unidentified products in which the absence of NO2 and pyrene absorption bands were observed, demonstrating the surface effect on the photodegradation. Overall, the presence of some products indicates the occurrence of a nitro-nitrite rearrangement on the surface with the participation of a pyrenoxy radical as their precursor. •Photodegradation rates of 1,6 and 1,8-dinitropyrenes.•Photoproducts adsorbed onto models of the atmospheric particulate.•Structural differences and the environment affect the photoreactivity of dinitropyrenes.•Formation of hydroxynitropyrenes and pyrenediones principal products.•The photochemistry of adsorbed dinitropyrenes is compared to that in acetonitrile.
doi_str_mv 10.1016/j.atmosenv.2013.04.035
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subjects Adsorbed
Applied sciences
Atmospheric chemistry
Atmospheric pollution
Dinitropyrenes
Exact sciences and technology
Photodegradation rates
Pollutants physicochemistry study: properties, effects, reactions, transport and distribution
Pollution
Surface phototransformations
title Phototransformations of dinitropyrene isomers on models of the atmospheric particulate matter
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