Abstract
Thallium(II) ions generated by flash photolysis of thallium(III) solutions oxidise manganese(II) and iron(II) and reduce cobalt(III). Rate constants for the reactions are: (Tl2++ Mn2+→ Tl++ Mn3+)(1·9 ± 0·2)× 104(0·5M-acid, I= 0·75M, and 22 ± 3 °C); (Tl2++ Fe2+→ Tl++ Fe3+)(2·6 ± 0·1)× 106(0·25M-acid. I= 0·30M, and 25 °C); ΔH‡= 4·8 ± 2 KJ mol–1; and (Tl2++ Co3+→ Tl3++ Co2+)(9·5 ± 0·5)× 106 l mol–1 s–1(0·5M-acid. I= 0·55M, and 22 ± 3 °C). The reactions are apparently outer sphere in type, and comparison of the standard free energies of reaction and the activation free energies for these and other one-electron-transfer reactions involving thallium(II) with the same parameters for two-electron transfers of thallium(III) shows that the latter have activation free energies which are some 25 KJ mol–1 larger than those for one-electron-transfer reactions with the same standard free-energy change, reflecting the increased organisation needed in the transition state for the transfer of two electrons.
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