Reaction mechanisms in molten salts. Part I. Ligand replacement in chromium(III) complexes dissolved in hydrogen sulphate melt and in 100% sulphuric acid

Abstract

Spectral shifts in the crystal-field bands of a variety of chromium(III) complexes dissolved in 100% sulphuric acid at 40 °C show that the ligands water, oxalate, acetylacetonate, and chloride, but not ammonia and ethylenediamine, are easily substituted by (protonated) sulphate ligands. By selecting appropriate ligands in the co-ordination sphere, it is possible to generate and record the spectra of the (solvated) species Cr(en)₃ ³⁺, Cr(en)₂ ³⁺, Cr(en)³⁺, and Cr³⁺ in 100% sulphuric acid. These data are used for studying the decomposition of the [Cr(en)₃]³⁺ ion in molten NH₄HSO₄–KHSO₄ at 142°. It is shown that the first and second ethylenediamine ligands are removed rapidly from the co-ordination sphere and that removal of the third is probably a one-stage process. Comparison is made with the decomposition of the complex in 100% sulphuric acid at the same temperature.