Silicon tetrabromide, also known as tetrabromosilane, 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. The general properties of silicon tetrabromide closely resemble those of the more commonly used silicon tetrachloride.

The properties of the tetrasilanes, 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.

Covalently saturated silicon complexes like SiBr₄, along with tetrahalides of germanium (Ge) and tin (Sn), are Lewis acids. 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). 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.

The strength of the Si-X bonds decrease in the order: Si-F > Si-Cl > Si-Br > Si-I.

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

Side products include dibromosilane (SiH₂Br₂) and tribromosilane (SiHBr₃).

It can also be produced by treating silicon-copper mixture with bromine:

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.