Hydrated Electrons Formed in the Flash Photolysis of Ag° and Tl°

Abstract

The transient species Ag⁰, formed in the reduction of Ag⁺ by hydrated electrons, may be photodissociated to e_aq⁻ again by light in the absorption band of Ag⁰ centered at ~315 nm.[Formula: see text]It suggests that this band is a charge-transfer-to-solvent band. The photon energy threshold for photoionization of Ag⁰ (3.0 eV) is substantially smaller than the vacuum photoelectric work function of silver metal (4.5 eV). Analogous results were obtained in solutions of Tl⁺ indicating that Tl⁰ may also yield e_aq⁻ on photolysis at ~300 nm. The experiments utilized a double flash photolysis technique, in which hydrated electrons were produced by u.v. photolysis of SO₄²⁻ in the first flash, reacted with Ag⁺ or Tl⁺ to give the short-lived intermediates Ag⁰ (lifetime ~60 μs) and T1⁰ (lifetime < 20 μs) which were photolyzed by a second flash containing light in a restricted wavelength range.