Silicon tetrabromide

Silicon tetrabromide
Stereo structural formula of silicon tetrabromide	Space fill model of silicon tetrabromide
	Ball and stick model of silicon tetrabromide
Names
	IUPAC name Silicon tetrabromide
	Other names Silicon bromide; Silicon(IV) bromide
Identifiers
CAS Number	7789-66-4
ChemSpider	74225
EC Number	232-182-4
Jmol 3D model	Interactive image
PubChem	82247
UN number	3264
	InChI InChI=1S/Br4Si/c1-5(2,3)4 Key: AIFMYMZGQVTROK-UHFFFAOYSA-N ;
	SMILES Br[Si](Br)(Br)Br ;
Properties
Chemical formula	Br4Si
Molar mass	347.70 g·mol−1
Appearance	Colorless liquid
Density	2.79 g·cm−3
Melting point	5 °C (41 °F; 278 K)
Boiling point	153 °C (307 °F; 426 K)
Refractive index (nD)	1.5685
Vapor pressure	{{{value}}}
Related compounds
Related tetrahalosilanes	Silicon tetrachloride; Silicon tetrafluoride; Silicon tetraiodide
Related compounds	Platinum(IV) bromide; Tellurium tetrabromide; Tetrabromomethane; Tin(IV) bromide; Titanium tetrabromide; Zirconium(IV) bromide
	Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
	Infobox references

Silicon tetrabromide is the inorganic compound with the formula SiBr₄. This colorless liquid has a suffocating odor due to its tendency to hydrolyze with release of hydrogen bromide.^[1] The general properties of silicon tetrabromide closely resemble those of the more commonly used silicon tetrachloride.^[1]

Comparison of SiX₄

The properties of the tetrahalosilanes, all of which are tetrahedral, are significantly affected by nature of the halide. These trends apply also to the mixed halides. Melting points, boiling points, and bond lengths increase with the atomic mass of the halide. The opposite trend is observed for the Si-X bond energies.

	SiF₄	SiCl₄	SiBr₄	SiI₄
b.p. (˚C)^[2]	-90.3	56.8	155.0	290.0
m.p. (˚C)^[2]	-95.0	-68.8	5.0	155.0
Si-X bond length (Å)	1.55	2.02	2.20	2.43
Si-X bond energy (kJ/mol)^[3]	582	391	310	234

Lewis acidity

Covalently saturated silicon complexes like SiBr₄, along with tetrahalides of germanium (Ge) and tin (Sn), are Lewis acids.^[4] Although silicon tetrahalides obey the octet rule, they add Lewis basic ligands to give adducts with the formula SiBr₄L and SiBr₄L₂ (where L is a Lewis base).^[5]^[6]^[7] The Lewis acidic properties of the tetrahalides tend to increase as follows: SiI₄ < SiBr₄ < SiCl₄ < SiF₄. This trend is attributed to the relative electronegativities of the halogens.^[6]^[3]

The strength of the Si-X bonds decrease in the order: Si-F > Si-Cl > Si-Br > Si-I.^[3]^[2]

Synthesis

Silicon tetrabromide is synthesized by the reaction of silicon with hydrogen bromide at 600 °C.^[8]

Si + 4 HBr → SiBr₄ + 2 H₂

Side products include dibromosilane (SiH₂Br₂) and tribromosilane (SiHBr₃).^[8]

Si + 2 HBr → SiH₂Br₂

Si + 3 HBr → SiHBr₃ + H₂

Reactivity

Like other halosilanes, SiBr₄ can be converted to hydrides, alkoxides, amides, and alkyls, i.e., products with the following functional groups: Si-H, Si-OR, Si-NR₂, Si-R, and Si-X bonds respectively.^[1]

Silicon tetrabromide can be readily reduced by hydrides or complex hydrides.^[2]

4 R₂AlH + SiBr₄ → SiH₄ + 4 R₂AlBr

Reactions with alcohols and amines proceeed as follows:^[2]

SiBr₄ + 4 ROH → Si(OR)₄ + 4 HBr

SiBr₄ + 8 HNR₂ → Si(NR₂)₄ + 4 HNR₂HBr

Grignard reactions with metal alkyl halides are particularly important reactions due to their production of organosilicon compounds which can be converted to silicones.^[2]

SiBr₄ + n RMgX → R_nSiBr_4-n + n MgXBr

Redistribution reactions occur between two different silicon tetrahalides (as well as halogenated polysilanes) when heated to 100 ˚C, resulting in various mixed halosilanes.^[1]^[3] The melting points and boiling points of these mixed halosilanes generally increase as their molecular weights increase.^[9] (Can occur with X= H, F, Cl, Br, and I)

2 SiBr₄ + 2 SiCl₄ → SiBr₃Cl + 2 SiBr₂Cl₂ + SiBrCl₃

Si₂Cl₆ + Si₂Br₆ → Si₂Cl_nBr_6-n

Silicon tetrabromide hydrolyzes readily when exposed to air causing it to fume:^[10]

SiBr₄ + 2 H₂O → SiO₂ + 4 HBr

Silicon tetrabromide is stable in the presence of oxygen at room temperature, but bromosiloxanes form at 670-695 ˚C .^[10]

2 SiBr₄ + 1⁄2 O₂ → Br₃SiOSiBr₃ + Br₂

Uses

Due to its close similarity to silicon tetrachloride, there are few applications unique to SiBr₄. The pyrolysis of SiBr₄ does have the advantage of depositing silicon at faster rates than that of SiCl₄, however SiCl₄ is usually preferred due to its availability in high purity.^[11] Pyrolysis of SiBr₄ followed by treatment with ammonia yields silicon nitride (Si₃N₄) coatings, a hard compound used for ceramics, sealants, and the production of many cutting tools.^[11]

References

↑ ^1.0 ^1.1 ^1.2 ^1.3 Encyclopedia of Inorganic Chemistry; King, B. R.; John Wiley & Sons Ltd.: New York, NY, 1994; Vol 7, pp 3779–3782.
↑ ^2.0 ^2.1 ^2.2 ^2.3 ^2.4 ^2.5 Silicon Compounds, Silicon Halides. Collins, W.: Kirk-Othmer Encyclopedia of Chemical Technology; John Wiley & Sons, Inc, 2001.
↑ ^3.0 ^3.1 ^3.2 ^3.3 Ebsworth, E. A. V. In Volatile Silicon Compounds; Taube, H.; Maddock, A. G.; Inorganic Chemistry; Pergamon Press Book: New York, NY, 1963; Vol. 4.
↑ Davydova, E. I.; Timoshkin, A. Y.; Sevastianova, T. N.; Suvorov, A. V.; Frenking, G. J. Mol. Struct. 2006, vol, 767-1-3. doi:10.1016/j.theochem.2006.05.011
↑ Beattie, I. R.; Gilson, T.; Webster, M.; (in part) McQuillan, G. P. J. Chem. Soc. 1964, 238-244. doi:10.1039/JR9640000238
↑ ^6.0 ^6.1 Mironov, S. L.; Gorlov, Y. I.; Chuiko, A. A. Theor. Exp. Chem. 1979, vol, 14–16. doi:10.1007/BF00519073
↑ Beattie, I. R.; Ozin, G. A. J. Chem. Soc., Inorg. Phys. Theor. 1969, 2267–2269
↑ ^8.0 ^8.1 Schumb, W. B. Silicobromoform" Inorganic Syntheses 1939, volume 1, pp 38-42. doi:10.1002/9780470132326.
↑ Greenwood, N. N.; Earnshaw, A. Chemistry of the Elements; Pergamon Press Inc.: New York, NY, 1984; pp 391-393.
↑ ^10.0 ^10.1 Silicon Compounds, Silanes. Arkles, B.; Kirk-Othmer Encyclopedia of Chemical Technology; John Wiley & Sons, Inc, 2001.
↑ ^11.0 ^11.1 Silicon Compounds, Inorganic. Simmler W.; Ullmann's Encyclopedia of Industrial Chemistry; Wiley-VCH, 2002. doi:10.1002/14356007.a24_001

[Encyclopedia-1] 1.0 ^1.1 ^1.2 ^1.3 Encyclopedia of Inorganic Chemistry; King, B. R.; John Wiley & Sons Ltd.: New York, NY, 1994; Vol 7, pp 3779–3782.

[collins-2] 2.0 ^2.1 ^2.2 ^2.3 ^2.4 ^2.5 Silicon Compounds, Silicon Halides. Collins, W.: Kirk-Othmer Encyclopedia of Chemical Technology; John Wiley & Sons, Inc, 2001.

[Ebsworth-3] 3.0 ^3.1 ^3.2 ^3.3 Ebsworth, E. A. V. In Volatile Silicon Compounds; Taube, H.; Maddock, A. G.; Inorganic Chemistry; Pergamon Press Book: New York, NY, 1963; Vol. 4.

[davydova-4] Davydova, E. I.; Timoshkin, A. Y.; Sevastianova, T. N.; Suvorov, A. V.; Frenking, G. J. Mol. Struct. 2006, vol, 767-1-3. doi:10.1016/j.theochem.2006.05.011

[beattie-5] Beattie, I. R.; Gilson, T.; Webster, M.; (in part) McQuillan, G. P. J. Chem. Soc. 1964, 238-244. doi:10.1039/JR9640000238

[mironov-6] 6.0 ^6.1 Mironov, S. L.; Gorlov, Y. I.; Chuiko, A. A. Theor. Exp. Chem. 1979, vol, 14–16. doi:10.1007/BF00519073

[ozin-7] Beattie, I. R.; Ozin, G. A. J. Chem. Soc., Inorg. Phys. Theor. 1969, 2267–2269

[booth-8] 8.0 ^8.1 Schumb, W. B. Silicobromoform" Inorganic Syntheses 1939, volume 1, pp 38-42. doi:10.1002/9780470132326.

[greenwood-9] Greenwood, N. N.; Earnshaw, A. Chemistry of the Elements; Pergamon Press Inc.: New York, NY, 1984; pp 391-393.

[silanes-10] 10.0 ^10.1 Silicon Compounds, Silanes. Arkles, B.; Kirk-Othmer Encyclopedia of Chemical Technology; John Wiley & Sons, Inc, 2001.

[inorganic-11] 11.0 ^11.1 Silicon Compounds, Inorganic. Simmler W.; Ullmann's Encyclopedia of Industrial Chemistry; Wiley-VCH, 2002. doi:10.1002/14356007.a24_001

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v t e Silicon compounds
Si(II)	SiO
Si(IV)	SiBr₄ SiC SiCl₄ SiF₄ SiH₄ SiI₄ SiO₂ SiS₂ Si₃N₄

Silicon tetrabromide

Contents

Comparison of SiX₄

Lewis acidity

Synthesis

Reactivity

Uses

References

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Silicon tetrabromide

Contents

Comparison of SiX4

Lewis acidity

Synthesis

Reactivity

Uses

References

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Comparison of SiX₄