Chemistry Reference
In-Depth Information
218 Staehelin, J. and Hoigne, J. Decomposition of ozone in water: rate of initiation
by hydroxide ions and hydrogen peroxide.
Environ. Sci. Technol.
1982,
16
,
676-681.
219 Tomiyasu, H., Fukutomi, H., and gordon, g. Kinetics and mechanism of ozone
decomposition in basic aqueous solution.
Inorg. Chem.
1985,
24
, 2962-2966.
220 Fábián, I. Reactive intermediates in aqueous ozone decomposition: a mechanistic
approach.
Pure Appl. Chem.
2006,
78
, 1559-1570.
221 Bezbarua, B.K. and Reckhow, D.A. Modification of the standard neutral ozone
decomposition model.
Ozone Sci. Eng.
2004,
26
, 345-357.
222 von gunten, U. Ozonation of drinking water: part II. Disinfection and by-product
formation in presence of bromide, iodide or chlorine.
Water Res.
2003,
37
,
1469-1487.
223 Pryor, W.A., giamalva, D.H., and church, D.F. Kinetics of ozonation. 2. Amino
acids and model compounds in water and comparisons to rates in nonpolar sol-
vents.
J. Am. Chem. Soc.
1984,
106
, 7094-7100.
224 Mumford, R.A., Lipke, H., Laufer, D.A., and Feder, W.A. Ozone-induced changes
in corn pollen.
Environ. Sci. Technol.
1972,
6
, 427-430.
225 Mudd, J.B., Leavitt, R., Ongun, A., and McManus, T.T. Reaction of ozone with
amino acids and proteins.
Atmos. Environ.
1969,
3
, 669-682.
226 Niki, E., yamamoto, y., Saito, T., Nagano, K., yokoi, S., and Kamiya, y. Ozoniza-
tion of organic compounds. VII. carboxylic acids, alcohols, and carbonyl com-
pounds.
J. Chem. Soc. Jpn.
1983,
56
, 223-228.
227 Bailey, P.S. Ozonation of nucleophiles. In
Ozonation in Organic Chemistry
, Vol.
2, H.H. Wasserman, ed. Academic Press Inc., New york, 1982, pp. 155-201.
228 Hoigne, J. and Bader, H. Rate constants of reactions of ozone with organic and
inorganic compounds in water—II: dissociating organic compounds.
Water Res.
1983,
17
, 185-194.
229 yamamoto, y., Niki, E., and Kamiya, y. Ozonization of organic compounds. VI.
Relative reactivity of protic solvents toward carbonyl oxide.
J. Chem. Soc. Jpn.
1982,
55
, 2677-2678.
230 Hureiki, L., croué, J.P., Legube, B., and Doré, M. Ozonation of amino acids: ozone
demand and aldehyde formation.
Ozone Sci. Eng.
1998,
20
, 381-402.
231 Lloyd, J.A., Spraggins, J.M., Johnston, M.V., and Laskin, J. Peptide ozonolysis:
product structures and relative reactivities for oxidation of tyrosine and histidine
residues.
J. Am. Soc. Mass Spectrochem.
2006,
17
, 1289-1298.
232 Mudd, J.B., Dawson, P.J., Tseng, S., and Liu, F. Reaction of ozone with protein
tryptophans: band III, serum albumin, and cytochrome c.
Arch. Biochem. Phys.
1997,
338
, 143-149.
233 Verweij, H., christianse, K., and Van Steveninck, J. Different pathways of tyrosine
oxidation by ozone.
Chemosphere
1982,
11
, 721-725.
234 Verweij, H., christianse, K., and Van Steveninck, J. Ozone-induced formation of
O,O′-dityrosine cross-links in proteins.
Biochim. Biophys. Acta
1982,
701
,
180-184.
235 Berlett, B.S., Levine, R.L., and Stadtman, E.R. comparison of the effects of ozone
on the modification of amino acid residues in glutamine synthetase and bovine
serum albumin.
J. Biol. Chem.
1996,
271
, 4177-4182.
Search WWH ::
Custom Search