Decaborane

 ( Boranes ) 

Decaborane, also called decaborane(14), is the inorganic compound with the chemical formula Boron₁₀Hydrogen₁₄. It is classified as a Boranes and more specifically a boron hydride cluster. This white crystalline compound is one of the principal boron hydride clusters, both as a reference structure and as a precursor to other boron hydrides. It is toxic and volatile, giving off a foul odor, like that of burnt rubber or chocolate.

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Handling, properties and structure The physical characteristics of decaborane(14) resemble those of naphthalene and anthracene, all three of which are volatile colorless solids. Sublimation is the common method of purification. Decaborane is highly flammable, and burns with a bright green flame like other boron hydrides. It is not sensitive to moist air, although it hydrolyzes in boiling water, releasing hydrogen and giving a solution of boric acid. It is soluble in cold water as well as a variety of non-polar and moderately polar .

In decaborane, the B₁₀ framework resembles an incomplete octadecahedron. Each boron atom has one "radial" hydride, and four boron atoms near the open part of the cluster feature extra bridging hydrides. In the language of cluster chemistry, the structure is classified as "nido".

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Synthesis and reactions

It is commonly synthesized via the pyrolysis of smaller boron hydride Atom cluster. For example, pyrolysis of diborane or B₅H₉ gives decaborane, with loss of H₂. On a laboratory scale, sodium borohydride is treated with boron trifluoride to give NaB₁₁H₁₄, which is acidified to release borane and hydrogen gas.Gary B. Dunks, Kathy Palmer-Ordonez, Eddie Hedaya "Decaborane(14)" Inorg. Synth. 1983, vol. 22, pp. 202–207.

It reacts with Lewis bases (L) such as acetonitrile and diethyl sulfide, to form adducts:

Charles R. Kutal (1968). 9780470131701 ISBN 9780470131701

M. Frederick Hawthorne (1967). 9780470132418 ISBN 9780470132418

B₁₀H₁₄ + 2 L → B₁₀H₁₂L₂ + H₂

These species, which are classified as "arachno" clusters, in turn react with acetylene to give the "closo" ortho-carborane:

B₁₀H₁₂·2L + C₂H₂ → C₂B₁₀H₁₂ + 2 L + H₂

Decaborane(14) is a weak Brønsted acid. Monodeprotonation generates the anion B₁₀H₁₃⁻, with again a nido structure.

In the Brellochs reaction, decaborane is converted to arachno-CB₉H₁₄⁻:

B₁₀H₁₄ + CH₂O + 2 OH⁻ + H₂O → CB₉H₁₄⁻ + B(OH)₄⁻ + H₂

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Possible applications Decaborane has no significant commercial applications, although the compound has often been investigated. It and its derivatives were investigated as an additive to special high-performance . Its derivates were investigated as well, e.g. ethyl decaborane.

Decaborane is an effective reagent for the reductive amination of ketones and aldehydes.

Decaborane has been assessed for low energy ion implantation of boron in the manufacture of . It has also been considered for plasma-assisted chemical vapor deposition for the manufacture of boron-containing . In fusion research, the neutron-absorbing nature of boron has led to the use of these thin boron-rich films to "boronize" the walls of the tokamak vacuum vessel to reduce recycling of particles and impurities into the plasma and improve overall performance. It has been evaluated in the context of nuclear fusion.

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Safety Decaborane, like pentaborane, is a powerful toxin affecting the central nervous system, although decaborane is less toxic than pentaborane. It can be absorbed through skin.

Purification by sublimation require a dynamic vacuum to remove evolved gases. Crude samples explode near 100 °C.

It forms an explosive mixture with carbon tetrachloride, which caused an often-mentioned explosion in a manufacturing facility.

In crystalline form, it reacts violently with red and white fuming nitric acid which has a use as rocket fuel oxidizer, producing an extremely powerful detonation.

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Further reading

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