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23 kwi 2009 · Ionization of N 2 O 4 in and on thin water films on surfaces is believed to be a key step in the hydrolysis of NO 2 which generates HONO, a significant precursor to the OH free radical in the lower atmosphere.
Ionization of N2O4 in Contact with Water: Mechanism, Time Scales and Atmospheric Implications. Abstract: Ionization of N2O4 in and on thin water films on surfaces is believed to be a key step in the hydrolysis of NO2 which generates HONO, a significant precursor to the OH free radical in the lower atmosphere.
1 maj 2009 · Ionization of N (2)O (4) in and on thin water films on surfaces is believed to be a key step in the hydrolysis of NO (2) which generates HONO, a significant precursor to the OH free radical in...
Key takeaway: 'Ionization of N2O4 in thin water films on surfaces occurs in several picoseconds for n = 1 and 2, and is essentially immediate for n > or = 3, with implications for hydrolysis of nitrogen oxides on surfaces in the atmosphere.'
1 wrz 2009 · Europe PMC is an archive of life sciences journal literature.
Author(s): Miller, Yifat; Finlayson-Pitts, Barbara J; Gerber, R Benny | Abstract: Ionization of N(2)O(4) in and on thin water films on surfaces is believed to be a key step in the hydrolysis of NO(2) which generates HONO, a significant precursor to the OH free radical in the lower atmosphere.
Ionization of N 2 O 4 in and on thin water films on surfaces is believed to be a key step in the hydrolysis of NO 2 which generates HONO, a significant precursor to the OH free radical in the lower atmosphere.