首次直接检测到亚硝酰甲基(CH3ONO)与羟基自由基(OH 自由基)反应中的 HONO。
First direct detection of HONO in the reaction of methylnitrite (CH3ONO) with OH radicals.
机构信息
Université Lille Nord de France, Lille, France.
出版信息
Environ Sci Technol. 2011 Jan 15;45(2):608-14. doi: 10.1021/es103076e. Epub 2010 Dec 6.
We report on the development of a new environmental simulation chamber coupled with an in situ continuous wave cavity ring-down spectrometer operating in the near IR (∼1.5 μm). The first application reported in this paper dealt with the chemical mechanism of UV photolysis of methyl nitrite (CH(3)ONO) in air. HONO has been detected for the first time and shown to be formed in the OH + CH(3)ONO reaction. A dense spectrum of cis-HONO absorption lines has been observed near 1.5 μm, in agreement with a previous study (Guilmot et al.). CH(2)O has been measured as primary product with good sensitivity and time resolution. In contrast to Zhao et al., we did not detect any NO(2) absorption features in this wavelength range. Calibration experiments provided very low NO(2) absorption cross sections in this region (∼10(-25) cm(2)), leading to conclude that NO(2) cannot be observed in this wavelength range in the presence of equal amounts of CH(2)O.
我们报告了一种新的环境模拟室的发展,该模拟室与原位连续波腔衰荡光谱仪相结合,在近红外(约 1.5μm)下运行。本文首次报道的应用涉及空气中亚硝酸甲酯(CH(3)ONO)的 UV 光解的化学机制。首次检测到 HONO,并表明其是在 OH + CH(3)ONO 反应中形成的。在 1.5μm 附近观察到 cis-HONO 吸收线的密集光谱,与先前的研究(Guilmot 等人)一致。以良好的灵敏度和时间分辨率测量到 CH(2)O 作为主要产物。与 Zhao 等人不同,我们在该波长范围内没有检测到任何 NO(2)吸收特征。校准实验在该区域提供了非常低的 NO(2)吸收截面(约 10(-25)cm(2)),这表明在 CH(2)O 存在的情况下,在该波长范围内不能观察到 NO(2)。
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