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Heterogeneous conversion of NO2 on secondary organic aerosol surfaces: A possible source of nitrous acid (HONO) in the atmosphere?

机译：次级有机气溶胶表面上NO2的异质转化：大气中亚硝酸（HONO）的可能来源？

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The heterogeneous conversion of NO on different secondary organic aerosols (SOA) was investigated with the focus on a possible formation of nitrous acid (HONO). In one set of experiments different organic aerosols were produced in the reactions of O with alpha-pinene, limonene or catechol and OH radicals with toluene or limonene, respectively. The aerosols were sampled on filters and exposed to humidified NO mixtures under atmospheric conditions. The estimated upper limits for the uptake coefficients of NO and the reactive uptake coefficients NO - HONO are in the range of 10and 10, respectively. The integrated HONO formation for 1 h reaction time was 10 cm geometrical surface and 10 g particle mass. In a second set of experiments the conversion of NO into HONO in the presence of organic particles was carried out in an aerosol flow tube under atmospheric conditions. In this case the aerosols were produced in the reaction of O with beta-pinene, limonene or catechol, respectively. The upper limits for the reactive uptake coefficients NO- HONO were in the range of 7 x 10- 9 x 10. The results from the present study show that heterogeneous formation of nitrous acid on secondary organic aerosols (SOA) is unimportant for the atmosphere.

机译：研究了NO在不同的次级有机气溶胶（SOA）上的异质转化，重点是亚硝酸（HONO）的可能形成。在一组实验中，O与α-alpha烯，li烯或邻苯二酚的反应生成了不同的有机气溶胶，OH基与甲苯或li烯的反应则生成了不同的有机气溶胶。将气溶胶在过滤器上取样，并在大气条件下暴露于潮湿的NO混合物中。 NO的吸收系数和反应性吸收系数NO-> HONO的估计上限分别在10和10的范围内。 1小时反应时间的累积HONO形成为<10 cm几何表面和<10 g颗粒质量。在第二组实验中，在大气条件下，在气溶胶流量管中将有机颗粒存在下NO转化为HONO。在这种情况下，气溶胶是在O与β-pine烯，li烯或邻苯二酚的反应中产生的。反应吸收系数NO-> HONO的上限在7 x 10-9 x 10的范围内。本研究的结果表明，次生有机气溶胶（SOA）上亚硝酸的异质形成对大气并不重要。

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Bröske R.; Kleffmann J.; Wiesen P.;
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年度 2003
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1. Heterogeneous conversion of NOsub2/sub on secondary organic aerosol surfaces: A possible source of nitrous acid (HONO) in the atmosphere? [J] . R.Br?ske, J.Kleffmann, P.Wiesen Atmospheric chemistry and physics . 2003 ,第3期

机译：次级有机气溶胶表面NO _{2 的异质转化：大气中亚硝酸（HONO）的可能来源？}
2. Heterogeneous conversion of NOsub2/sub on secondary organic aerosol surfaces: A possible source of nitrous acid (HONO) in the atmosphere? [J] . R.Br?ske, J.Kleffmann, P.Wiesen Atmospheric chemistry and physics . 2003 ,第3期

机译：次级有机气溶胶表面NO _{2 的异质转化：大气中亚硝酸（HONO）的可能来源？}
3. Heterogeneous conversion of nitric acid to nitrous acid on the surface of primary organic aerosol in an urban atmosphere [J] . Luke D.Ziemba, Jack E.Dibb, Robert J.Griffin, Atmospheric environment . 2010 ,第33期

机译：在城市大气中，主要有机气溶胶表面上的硝酸异质转化为亚硝酸
4. Role of microelement composition onto processes of secondary aerosol formation and role of secondary organic aerosol in microelement transport in the atmosphere [C] . Kutsenogiy, P. Workshop on Macro, Trace and Ultratrace Elements; 20040924-25; Jena(DE) . 2004

机译：微量元素组成对次级气溶胶形成过程的作用以及次级有机气溶胶在大气中微量元素迁移中的作用
5. AIM-IC: Applications to nitrous acid (HONO) in the ambient atmosphere and precipitation monitoring. [D] . VandenBoer, Trevor Casey. 2009

机译：AIM-IC：在环境大气中的亚硝酸（HONO）和降水监测中的应用。
6. Formation of HONO from the NH3-promoted hydrolysis of NO2 dimers in the atmosphere [O] . Lei Li, Zhiyao Duan, Hui Li, 2018

机译：NH3促进大气中NO2二聚体水解形成HONO
7. Heterogeneous conversion of NO₂ on secondary organic aerosol surfaces: A possible source of nitrous acid (HONO) in the atmosphere? [O] . Bröske, R., Kleffmann, J., Wiesen, P. 2003

机译：次级有机气溶胶表面NO _{2 的异质转化：大气中亚硝酸（HONO）的可能来源？}

Heterogeneous conversion of NO2 on secondary organic aerosol surfaces: A possible source of nitrous acid (HONO) in the atmosphere?

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