Molybdenum tetrachloride

Template:Chembox Molybdenum tetrachloride is the inorganic compound with the empirical formula MoCl₄. The material exists as two polymorphs, both being dark-colored paramagnetic solids. These compounds are mainly of interest as precursors to other molybdenum complexes.

Structure

The α polymorph is a polymer. The β polymorph is a hexamer. In both polymorph, the Mo center is octahedral with two terminal chloride ligands and four doubly bridging ligands.^[1] In addition to these two binary phases, a number of adducts are know with the formula Template:Chem2 where L is a Lewis base.

Preparation

α-Molybdenum tetrachloride can be prepared from by dechlorination of molybdenum pentachloride using tetrachloroethene:^[2]

2Script error: No such module "String".MoCl₅ + C₂Cl₄ → 2Script error: No such module "String".MoCl₄ + C₂Cl₆

Heating α-molybdenum tetrachloride in a sealed container in the presence of molybdenum pentachloride induces conversion to the β polymorph.^[2]

Reactions

When heated in an open container, molybdenum tetrachloride evolves chlorine, giving molybdenum trichloride;^[2]

2Script error: No such module "String".MoCl₄ → 2Script error: No such module "String".MoCl₃ + Cl₂

The acetonitrile complex adduct can be prepared by reduction of the pentachloride with acetonitrile:^[3][4]

2Script error: No such module "String".MoCl₅ + 5Script error: No such module "String".CH₃CN → 2Script error: No such module "String".MoCl₄(CH₃CN)₂ + ClCH₂CN + HCl

The MeCN ligands can be exchanged with other ligands:

MoCl₄(CH₃CN)₂ + 2Script error: No such module "String".THF → MoCl₄(THF)₂ + 2Script error: No such module "String".CH₃CN

The pentachloride can be reduced to the ether complex MoCl₄(Et₂O)₂ using tin powder. It is a beige, paramagnetic solid.^[5]

References

Template:Molybdenum compounds Template:Chlorides