Skip to main content

View full-text article in PMC

. Author manuscript; available in PMC: 2010 Sep 24.

Published in final edited form as: J Phys Chem B. 2009 Sep 24;113(38):12773–12781. doi: 10.1021/jp903554n

Table 1.

Reactions and rate constants relevant to the generation and combination of dG(-H)^• and ^•CH₃ radicals^a

N		k_n (M⁻¹ s⁻¹)
1	S₂O₈^2- + hν → 2 SO₄^•–	φ₃₀₈ = 0.55 (ref. ³²)
2	SO₄^•– + SO₄^•– → S₂O₈^2-	(1.1±0.1)×10⁹ (ref. ³³)
3	SO₄^•– + dG → SO₄^2– + dG(-H)^• + H⁺	(4.1±0.3)×10⁹^b
4	SO₄^•– + DMSO ⇆ [SO₄^•–... DMSO]	1×10¹⁰^b,^c
4	SO₄^•– + DMSO ⇆ [SO₄^•–... DMSO]	(2.1±0.2)×10⁷^b,^d
5	[SO₄^•–... DMSO] + H₂O → SO₄^2– + ^•CH₃ + H₃CSO₂H + H⁺	(4.2±0.4)×10⁶^b,^e
6	dG + [SO₄^•–... DMSO] → dG(-H)^• + SO₄^2– + DMSO	(3.8±0.4)×10⁹^b
7	dG(-H)^• + ^•CH₃ → Me-dG	(4.7±0.8)×10⁸^b
8	^•CH₃ + ^•CH₃ → C₂H₆	(1.6±0.2)×10⁹ (ref. ³⁴)
9	dG(-H)^• + dG(-H)^• → products	(1.0±0.1)×10⁸^b

^a

25 mM deoxygenated phosphate buffer solution, pH 7.4.

^b

obtained in this work.

^c

the rate constant for complex formation, k₄.

^d

The rate constant for complex dissociation, k₋₄ is in units of s⁻¹.

^e

rate constant for ^•CH₃ radical formation, k₅ (in units of s⁻¹).