Dichromate dosimetry: The effect of acetic acid on the radiolytic reduction yield

The radiation chemical yield for the reduction of dichromate, Cr(VI) → Cr³⁺, in an acidic aqueous perchloric acid solution of potassium dichromate, may be increased from 0.04 to >0.2 μ mol J^-1 by adding acetic acid. The increased yield, G-(Cr₂O₇)^2-] is about the same in N_2- and O₂-saturated solutions. The molar linear absorption coefficient at 350 nm also is the same in both solutions (ϵ_m = 2800 M^-1cm^-1) at pH 0.4. The proposed mechanism to explain the enhanced response in N₂-saturated solutions involves the efficient reaction of acetic acid with hydroxyl radicals by the abstraction of H from the methyl group; the resulting acid radicals react with relatively high yield to reduce Cr(VI). In O₂-saturated solution, the acetic acid radical apparently goes through an acetic acid peroxyl radical by a bimolecular reaction to the tetroxide intermediate of acetic acid, which releases H₂O₂ with relatively high yield by a Bennett-type reaction. This additional H₂O₂, as a reducing agent, reacts slowly with dichromate and boosts the value of G-(Cr₂O₇)^2-]. The negative slope of the response (ΔA vs dose) continues to increase during the period immediately after irradiation of oxygenated solution, due to slow reaction of radiolytically-produced H₂O₂ with dichromate. There is also in both O₂- and N₂-saturated solution a long-term slow reaction involving oxidation of the organic substrate (in this case, acetic acid). Because of these instabilities, the solutions cannot readily be used for dosimetry without the presence of silver ions, which in the oxidized state, Ag²⁺, act to stabilize the solution after irradiation. The addition of silver dichromate at a concentration of 0.1 mM decreases the yield to G-(Cr₂O₇)^2-] = 0.17 μmolJ^-1, but greatly improves the stability of the solution after irradiation. The absorbed dose range for the modified dichromate dosimeter when analyzed spectrophotometrically at 350 nm wavelength is approx. 2 × 10²-2 × 10³ Gy.