The role of Pt2+ and Pt4+ impurity ions in the photochemistry of single-crystal silver chloride

Abstract

Both divalent and tetravalent platinum ions are substitutionally incorporated into silver chloride during the melt growth of single crystals. Pt²⁺ is believed to occupy sites of octahedral or tetragonal symmetry which are formulated as (PtCl₆)⁴⁻ and { (PtCl₆)⁴⁻⋅Ag⁺_vac}, respectively. The former complex functions as an electron trap, whereas the charge‐compensated center has a significant capture cross section for holes. The predominant products of these reactions, (PtCl₆)⁵⁻ and { (PtCl₆)³⁻⋅nAg⁺_vac}, where n=1 to 3, have been identified by EPR spectroscopy. Pt⁴⁺ ions are fully charge compensated in AgCl, and the resultant complex, { (PtCl₆)²⁻⋅3Ag⁺_vac}, is a deep electron trap. The most stable photoproduct from both AgCl‖Pt²⁺‖ and AgCl‖Pt⁴⁺‖ was { (PtCl₆)³⁻⋅2Ag⁺_vac}. The lifetime at room temperature and the trap depth for this complex have been determined.