Manganese(III) chloride
Manganese chloride is the hypothetical inorganic compound with the formula MnCl3.
The existence of this binary halide has not been demonstrated. Nonetheless, many derivatives of MnCl3 are known, such as MnCl33 and the bench-stable MnCl3(OPPh3)2. Contrasting with the elusive nature of MnCl3, trichlorides of the adjacent metals on the periodic table—iron(III) chloride, chromium(III) chloride, and technetium(III) chloride—are all isolable compounds.
History of MnCl3 and its adducts
MnCl3 was claimed to be a dark solid and produced by the reaction of "anhydrous manganese(III) acetate" and liquid hydrogen chloride at −100 °C and decomposes above -40 °C. Other claims involved reaction of manganese(III) oxide, manganese oxide-hydroxide, and basic manganese acetate with hydrochloric acid. Given recent investigations however, such claims have been disproved or called into serious doubt. Specifically, all known compounds containing MnCl3 are known to be solvent or ligand-stabilized adducts.Adducts
MnCl3 can be stabilized by complexation to diverse Lewis bases, as has been established over the course of many years of study. Meta stable acetonitrile-solvated MnCl3 can be prepared at room temperature by treating Single-molecule magnet| with trimethylsilyl chloride. The treatment of permanganate salts with trimethylsilylchloride generates solutions containing Mn–Cl species for alkene dichlorination reactions; electrocatalytic methods that use Mn–Cl intermediates have been developed for the same purpose.The reaction of manganese dioxide with hydrochloric acid in tetrahydrofuran gives MnCl32. Manganese(III) fluoride suspended in THF reacts with boron trichloride, giving MnCl33 which has the appearance of dark purple prisms. This compound has a monoclinic crystal structure, reacts with water, and decomposes at room temperature.
The most readily handled of this series of adducts is MnCl3(OPPh3)2.