Chloropentamminecobalt chloride


Chloropentamminecobalt chloride is the dichloride salt of the coordination complex 2+. It is a red-violet, diamagnetic, water-soluble salt. The compound has been of academic and historical interest.

Synthesis and reactions

The salt is prepared with a two-step process starting with oxidizing a solution of cobalt chloride and ammonia.
This intermediate is then heated to induce coordination of one of the outer sphere chloride ligands:
The dication 2+ has idealized C4v symmetry.
In an aqueous solution, chloropentaamminecobalt chloride reforms aquopentammine complex. With concentrated sulfuric acid, chloropentaamminecobalt chloride forms the hydrogen sulfate complex 2+.

History

Cobalt complexes have been of long-standing interest in inorganic chemistry because they are numerous, easily prepared, and colorful. It was partly on the basis of his study of cobalt coordination chemistry that Alfred Werner was awarded the Nobel Prize in Chemistry. Prior to Werner, the models of amine complexes postulated chains of pentavalent nitrogen centers. This Jørgensen–Bloomstrand model was overthrown by Werner who introduced the idea that coordination complexes feature metal atoms of octahedral and tetrahedral shapes, with ammonia and other ligands attached individually to the metal. Werner's model accounted for the inner sphere ligands being less reactive. In Cl2, two chloride ions are outer sphere and one is bound to the Co center: reaction with excess silver nitrate would immediately precipitate the two chloride counter ions, but the bound chloride ion would not be precipitated.