Kinetics and mechanism of the iodine oxidation of hydroxylamine |
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Authors: | Robert T Wang Gyula Rbai Kenneth Kustin |
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Institution: | Robert T. Wang,Gyula Rábai,Kenneth Kustin |
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Abstract: | Studies of the stoichiometry and kinetics of the reaction between hydroxylamine and iodine, previously studied in media below pH 3, have been extended to pH 5.5. The stoichiometry over the pH range 3.4–5.5 is 2NH2OH + 2I2 = N2O + 4I? + H2O + 4H+. Since the reaction is first-order in I2] + I3?], the specific rate law, k0, is k0 = (k1 + k2/H+]) {NH3OH+]0/(1 + KpH+])} {1/(1 + KII?])}, where NH3OH+]0 is total initial hydroxylamine concentration, and k1, k2, Kp, and KI are (6.5 ± 0.6) × 105 M?1 s?1, (5.0 ± 0.5) s?1, 1 × 106 M?1, and 725 M?1, respectively. A mechanism taking into account unprotonated hydroxylamine (NH2OH) and molecular iodine (I2) as reactive species, with intermediates NH2OI2?, HNO, NH2O, and I2?, is proposed. |
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