Tsai C., M. Spolaor, S. F. Colosimo, O. Pikelnaya, R. Cheung, E. Williams, J. B. Gilman, B. M. Lerner, R. J. Zamora, et al. (February 2018):
Nitrous acid formation in a snow - free wintertime polluted rural area.
Not exact matches
The Berkeley Lab team has done previous studies establishing the
formation of harmful thirdhand smoke constituents by reaction of nicotine with indoor
nitrous acid, showing that nicotine can react with ozone to form potentially harmful ultrafine particles, and finding that thirdhand smoke can cause genetic damage in human cells.
Cheng and H. Su: Daytime
formation of
nitrous acid at a coastal remote site in Cyprus indicating a common ground source of atmospheric HONO and NO, Atmospheric Chemistry and Physics 16 (22), 14475 - 14493, 2016.
Mohamad Sleiman was the lead author of a paper titled «
Formation of carcinogens indoors by surface - mediated reactions of nicotine with
nitrous acid, leading to potential third - hand smoke hazards.»
Visibility (particulates and
nitrous oxides) and
acid rain (sulfur dioxide) dominated in the
formation of policy established via the 1970 Clean Air Act and subsequent Clean Air Act Amendments in 1977 and 1990, while global warming gases remained unregulated.