Vejerano Eric, Lomnicki Slawo, Dellinger Barry
Louisiana State University, Department of Chemistry, 232 Choppin Hall, Baton Rouge, LA 70803, USA.
J Environ Monit. 2012 Oct 26;14(10):2803-6. doi: 10.1039/c2em30545c. Epub 2012 Sep 18.
Previous studies indicated that Environmentally Persistent Free Radicals (EPFRs) are formed in the post-flame, cool zone of combustion. They result from the chemisorption of gas-phase products of incomplete combustion (particularly hydroxyl- and chlorine-substituted aromatics) on Cu(II)O, Fe(III)(2)O(3), and Ni(II)O domains of particulate matter (fly ash or soot particles). This study reports our detailed laboratory investigation on the lifetime of EPFRs on Zn(II)O/silica surface. Similarly, as in the case of other transition metals, chemisorption of the adsorbate on the Zn(II)O surface and subsequent transfer of electron from the adsorbate to the metal forms a surface-bound EPFR and a reduced metal ion center. The EPFRs are stabilized by their interaction with the metal oxide domain surface. The half-lives of EPFRs formed on Zn(II)O domains were the longest observed among the transition metal oxides studied and ranged from 3 to 73 days. These half-lives were an order of magnitude longer than those formed on nickel and iron oxides, and were 2 orders of magnitude longer compared to the EPFRs on copper oxide which have half-lives only on the order of hours. The longest-lived radicals on Zn(II)O correspond to the persistency in ambient air particles of almost a year. The half-life of EPFRs was found to correlate with the standard reduction potential of the associated metal.
先前的研究表明,环境持久性自由基(EPFRs)在燃烧后的火焰冷却区形成。它们是由不完全燃烧的气相产物(特别是羟基和氯取代的芳烃)在颗粒物(飞灰或烟尘颗粒)的Cu(II)O、Fe(III)(2)O(3)和Ni(II)O区域上的化学吸附产生的。本研究报告了我们对EPFRs在Zn(II)O/二氧化硅表面寿命的详细实验室研究。同样,与其他过渡金属的情况一样,吸附质在Zn(II)O表面的化学吸附以及随后电子从吸附质转移到金属上,形成了表面结合的EPFR和还原的金属离子中心。EPFRs通过与金属氧化物区域表面的相互作用而稳定。在研究的过渡金属氧化物中,在Zn(II)O区域形成的EPFRs的半衰期最长,范围为3至73天。这些半衰期比在镍和铁氧化物上形成的半衰期长一个数量级,与在氧化铜上形成的半衰期仅为小时量级的EPFRs相比长两个数量级。Zn(II)O上寿命最长的自由基在环境空气颗粒中的持久性几乎可达一年。发现EPFRs的半衰期与相关金属的标准还原电位相关。