Reactions of Cl•/Cl2•− Radicals with the Nanoparticle Silica Surface and with Humic Acids: Model Reactions for the Aqueous Phase Chemistry of the Atmosphere

Fourier transform infrared spectroscopy was used to identify CH2CIOOH and HC(O)CI as products of the gas phase reaction of CH2CIO 2 radicals with HO 2 radicals. At 700 Torr and 295 \_ 2 K, branching ratios of kla//kl = 0.27 \_+ 0.05 and klb/k ) ffi 0.73 \_+ 0.12 were obtained for the CH2CIOOH formin

Rate coefficients for the reaction of OH radicals and CI atoms with dibromomethane, OH + CH,Br2 -CHBr, + H,O ( I ) and CI + CH,Br, 4 CHBr, + HCI (31, and for the reaction of CI atoms with methyl bromide, C1 + CH,Br + HCI + CH,Br ( 4 ) , have been obtained using relative rate techniques. At 298 K, th

Rate constants for the reaction of CN( u= 0) with Cl,, FZ and O2 have been measured. CN radicals were generated by photolysis of C2Nz with pulsed radiation at 193 nm. Laser-induced fluorescence (LIF) was used to monitor the decay profiles of CN radical concentrations. The valuesobtainedare: k(CN/CI?

Rate constants for the reactions of C1 atoms and OH radicals with haloalkanes were measured using the relative rate technique. From these values the atmospheric lifetimes of the organics with respect to C1 atoms and OH radicals were calculated. C1 atoms were produced by the photolysis of chlorine ga