Hydrated electron
Hexaamminecobalt(III) ion
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Hydrated electron
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Waltz, W.L.; Pearson, R.G.
J. Phys. Chem. 73, 1941-1952 (1969)
Reaction: eaq- + Co(NH3)63+ ®
Solvent: H2O
k = 8.8 × 1010(L mol-1 s-1), pH ~7
Experimental method: Pulse radiolysis
Analytical method: vis-UV absorption
Data type: Absolute value measured directly
Decay kinetics at 690 nm, counterion Cl-; soln. contains < 10-3 mol L-1 H2.
Meyerstein, D.; Mulac, W.A.
J. Phys. Chem. 73, 1091-1095 (1969)
Reaction: eaq- + Co(NH3)63+ ®
Solvent: H2O
pH range 5 to 6
k = 8.5 × 1010(L mol-1 s-1)
Experimental method: Pulse radiolysis
Analytical method: vis-UV absorption
Data type: Absolute value measured directly
Decay kinetics at 575 nm, counterion ClO4-.
Anbar, M.; Hart, E.J.
Adv. Chem. Ser. 81, 79-94 (1968)
Reaction: eaq- + Co(NH3)63+ ®
Solvent: H2O
k = 8.2 × 1010(L mol-1 s-1), ionic strength ®0, pH = 6.7
Experimental method: Pulse radiolysis
Analytical method: vis-UV absorption
Data type: Absolute value measured directly
Decay kinetics; counterion ClO4-; I = 6 × 10-5
Anbar, M.; Hart, E.J.
J. Phys. Chem. 69, 973-977 (1965)
Reaction: eaq- + Co(NH3)63+ ®
Solvent: H2O
k = 9.0 × 1010(L mol-1 s-1), pH = 11.1
Experimental method: Pulse radiolysis
Analytical method: vis-UV absorption
Data type: Absolute value measured directly
Decay kinetics; counterion ClO4-; soln. contains 0.2 mol L-1 NH3.
Baxendale, J.H.; Fielden, E.M.; Keene, J.P.
Proc. R. Soc. London, Ser. A 286, 320-336 (1965)
Reaction: eaq- + Co(NH3)63+ ®
Solvent: H2O
Activation energy = 18(kJ mol-1), Log(A) = 14.082, Temperature range 294 to 351 K
k = 9.0 × 1010(L mol-1 s-1), T = 294K
Experimental method: Pulse radiolysis
Analytical method: vis-UV absorption
Data type: Absolute value measured directly
Decay kinetics; counterion ClO4-.