Pentacarbonylhydridomanganese

Pentacarbonylhydridomanganese

Pentacarbonylhydridomanganese
Names
Other names Hydrogen pentacarbonylmanganate(-I) (7CI); Manganese, pentacarbonylhydro- (8CI); Hydridomanganese pentacarbonyl; Hydridopentacarbonylmanganese; Manganese pentacarbonyl hydride; Pentacarbonylhydromanganese; Pentacarbonylmanganese hydride
Identifiers
CAS Number	16972-33-1 Y
Properties
Chemical formula	HMn(CO)5
Molar mass	195.99799 g/mol
Appearance	At room temperature, it is liquid and colorless. Below its melting point, it may be sublimed in vacuum.[1]
Vapor pressure	{{{value}}}
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references

Pentacarbonylhydridomanganese is an organometallic compound with formula HMn(CO)₅. This compound is one of the most stable "first-row" transition metal hydrides.

Preparation

It was first reported in 1931.^[2] Of the several ways to produce this compound,^[3] is the protonation of the pentacarbonyl manganate anion. The latter is formed from reduction of dimanganese decacarbonyl (Mn(CO)₅)₂. The reaction is shown below.

LiHB(C₂H₅)₃ (Superhydride) + ½Mn₂(CO)₁₀ → Li[Mn(CO)₅] + ½H₂ + (C₂H₅)₃B

Li[Mn(CO)₅] + CF₃SO₃H → HMn(CO)₅ + Li⁺
CF₃SO₃⁻

Salts of [Mn(CO)₅]⁻
can be isolated as crystalline PPN⁺
(μ-nitrido—bis-(triphenylphosphorus)) salt, which is smoothly protonated by CF₃SO₃H.^[3]

PPN[Mn(CO)₅] + CF₃SO₃H → HMn(CO)₅ + PPN⁺
CF₃SO₃⁻

This compound can also be formed by the reaction of a solution of pentacarbonyl(trimethylsilyl)manganese with water.^[4] The reaction is shown below.

2(CO)₅MnSiMe₃ + H₂O → HMn(CO)₅ + Me₃SiOSiMe₃

Structure and Properties

The compound has octahedral symmetry ^[5] and its molecular point group is C_4v.^[6] The H-Mn bond length is 1.44 ± 0.03 Å.^[6] A gas phase electron diffraction study confirms this data.

The structure of HMn(CO)₅ has been studied by many methods including X-Ray diffraction, neutron diffraction, and electron diffraction.^[6] HMn(CO)₅ can be related to the structure of a hexacarbonyl complex such as Mn(CO)⁺
₆, and therefore has the following similar properties.^[7] The occupied molecular orbitals on the top are the 2 t_2g orbitals. They are characterized as metal 3d_π orbitals. Since the antibonding 2π orbitals interact with the carbonyl groups, (or in this case, H⁻
) the t_2g orbital is stabilized compared to the 3d_π orbital, which in turn will cause changes in the sigma and pi interactions.

Main Reactions

The pKa of HMn(CO)₅ is 15.1.^[8] It is thus comparable to hydrogen sulfide, a common inorganic acid, in its acidity.

A common reaction involving the HMn(CO)₅ species is substitution of the CO ligands by organophosphines, as occurs both thermally and photochemically.^[9] In this way the following derivatives form MnH(CO)₃P₂, MnH(CO)₂P₃, and MnH(CO)P₄, (where P = P(OEt)₃, PPh(OEt)₂, PPh₂OEt, PPh(OiPr)₂.

The compound HMn(CO)₅ can be used to reduce olefins and other organic compounds, as well as metal halides.^[3]

Carbonyl ligands are substituted in this complex with the appropriate phosphite, resulting in the complexes shown above.

This compound can be methylated with diazomethane.^[1]

HMn(CO)₅ + CH₂N₂ → Mn(CO)₅CH₃ + N₂

Notes