Kinetic Isolation of Reaction Intermediates on Ice Surfaces. Precursor States of SO<sub>2</sub> Hydrolysis
Young-Kwang Kim
Sun-Kyung Kim
Jung-Hwan Kim
Heon Kang
10.1021/jp907653y.s001
https://acs.figshare.com/articles/journal_contribution/Kinetic_Isolation_of_Reaction_Intermediates_on_Ice_Surfaces_Precursor_States_of_SO_sub_2_sub_Hydrolysis/2824927
We studied the interaction of SO<sub>2</sub> with ice films at temperatures above 80 K, with emphasis on the examination of the precursor states of SO<sub>2</sub> hydrolysis, or SO<sub>2</sub> surface complexes. Cs<sup>+</sup> reactive ion scattering (RIS) and low energy sputtering (LES) techniques were used to examine the surface reaction products, in conjunction with temperature-programmed desorption (TPD) to monitor the desorbing species. The study indicated that the reaction of SO<sub>2</sub> with the ice surface occurred through several distinct intermediate states, including a solvated SO<sub>2</sub> species, a DSO<sub>2</sub> species, and a strongly ionic molecular species, and these intermediates could be isolated on the ice surface due to kinetic trapping.
2009-10-01 00:00:00
surface reaction products
RIS
TPD
DSO 2 species
ice surface
2 surface complexes
LES