Английская Википедия:Borane

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Шаблон:Distinguish Шаблон:About Шаблон:Chembox

Borane, also known as borine, is an unstable and highly reactive molecule with the chemical formula Шаблон:Chem. The preparation of borane carbonyl, BH3(CO), played an important role in exploring the chemistry of boranes, as it indicated the likely existence of the borane molecule.[1] However, the molecular species BH3 is a very strong Lewis acid. Consequently, it is highly reactive and can only be observed directly as a continuously produced, transitory, product in a flow system or from the reaction of laser ablated atomic boron with hydrogen.[2] It normally dimerizes to diborane in the absence of other chemicals.[3]

Structure and properties

BH3 is a trigonal planar molecule with D3h symmetry. The experimentally determined B–H bond length is 119 pm.[4]

In the absence of other chemical species, it reacts with itself to form diborane. Thus, it is an intermediate in the preparation of diborane according to the reaction:[5]

BX3 +BH4 → HBX3 + (BH3) (X=F, Cl, Br, I)
2 BH3 → B2H6

The standard enthalpy of dimerization of BH3 is estimated to be −170 kJ mol−1.[6] The boron atom in BH3 has 6 valence electrons. Consequently, it is a strong Lewis acid and reacts with any Lewis base ('L' in equation below) to form an adduct:[7]

BH3 + L → L—BH3

in which the base donates its lone pair, forming a dative covalent bond. Such compounds are thermodynamically stable, but may be easily oxidised in air. Solutions containing borane dimethylsulfide and borane–tetrahydrofuran are commercially available; in tetrahydrofuran a stabilising agent is added to prevent the THF from oxidising the borane.[8] A stability sequence for several common adducts of borane, estimated from spectroscopic and thermochemical data, is as follows:

PF3 < CO< Et2O< Me2O< C4H8O < C4H8S < Et2S< Me2S< Py < Me3N< H

BH3 has some soft acid characteristics as sulfur donors form more stable complexes than do oxygen donors.[5] Aqueous solutions of BH3 are extremely unstable.[9][10]

Шаблон:Chem + 3Шаблон:H2OШаблон:Chem + Шаблон:Chem

Reactions

Molecular BH3 is believed to be a reaction intermediate in the pyrolysis of diborane to produce higher boranes:[5]

B2H6 ⇌ 2BH3
BH3 +B2H6 → B3H7 +H2 (rate determining step)
BH3 + B3H7 ⇌ B4H10
B2H6 + B3H7 → BH3 + B4H10
⇌ B5H11 + H2

Further steps give rise to successively higher boranes, with B10H14 as the most stable end product contaminated with polymeric materials, and a little B20H26.

Borane ammoniate, which is produced by a displacement reaction of other borane adducts, eliminates elemental hydrogen on heating to give borazine (HBNH)3.[11]

Borane adducts are widely used in organic synthesis for hydroboration, where BH3 adds across the C=C bond in alkenes to give trialkylboranes:[12]

(THF)BH3 + 3 CH2=CHR → B(CH2CH2R)3 + THF

This reaction is regioselective.[13] Other borane derivatives can be used to give even higher regioselectivity.[14] The product trialkylboranes can be converted to useful organic derivatives. With bulky alkenes one can prepare species such as [HBR2]2, which are also useful reagents in more specialised applications. Borane dimethylsulfide which is more stable than borane–tetrahydrofuran may also be used.[15][14]

Hydroboration can be coupled with oxidation to give the hydroboration-oxidation reaction. In this reaction, the boryl group in the generated organoborane is substituted with a hydroxyl group.[16]

As a Lewis acid

Phosphine-boranes, with the formula R3−nHnPBH3, are adducts of organophosphines and borane.

Borane(5) is the dihydrogen complex of borane. Its molecular formula is BH5 or possibly BH32-H2).[17] It is only stable at very low temperatures and its existence is confirmed in very low temperature.[18][19] Borane(5) and methanium (CH5+) are isoelectronic.[20] Its conjugate base is the borohydride anion.

See also

References

Шаблон:Reflist Шаблон:Boron compounds Шаблон:Hydrides by group

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  1. Шаблон:Cite journal
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  5. 5,0 5,1 5,2 Шаблон:Greenwood&Earnshaw
  6. Шаблон:Cite journal
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  8. Hydrocarbon Chemistry, George A. Olah, Arpad Molner, 2d edition, 2003, Wiley-Blackwell Шаблон:ISBN
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  14. 14,0 14,1 Шаблон:Cite journal
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  20. A Life of Magic Chemistry: Autobiographical Reflections Including Post-Nobel Prize Years and the Methanol Economy, 159p
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