Titanium tetrachloride
Titanium tetrachloride is the inorganic compound with the formula. It is an important intermediate in the production of titanium metal and the pigment titanium dioxide. is a volatile liquid. Upon contact with humid air, it forms thick clouds of titanium dioxide and hydrochloric acid, a reaction that was formerly exploited for use in smoke machines. It is sometimes referred to as "tickle" or "tickle 4", as a phonetic representation of the symbols of its molecular formula.
Properties and structure
is a dense, colourless liquid, although crude samples may be yellow or even red-brown. It is one of the rare transition metal halides that is a liquid at room temperature, vanadium tetrachloride| being another example. This property reflects the fact that molecules of weakly self-associate. Most metal chlorides are polymers, wherein the chloride atoms bridge between the metals. Its melting point is similar to that of Carbon tetrachloride|.has a "closed" electronic shell, with the same number of electrons as the noble gas argon. The tetrahedral structure for is consistent with its description as a d0 metal center surrounded by four identical ligands. This configuration leads to highly symmetrical structures, hence the tetrahedral shape of the molecule. adopts similar structures to Titanium tetrabromide| and Titanium tetraiodide|; the three compounds share many similarities. and react to give mixed halides, where x = 0, 1, 2, 3, 4. Magnetic resonance measurements also indicate that halide exchange is also rapid between and.
is soluble in toluene and chlorocarbons. Certain arenes form complexes of the type. reacts exothermically with donor solvents such as THF to give hexacoordinated adducts. Bulkier ligands give pentacoordinated adducts.
Production
is produced by the chloride process, which involves the reduction of titanium oxide ores, typically ilmenite, with carbon under flowing chlorine at 900 °C. Impurities are removed by distillation.The coproduction of Iron chloride| is undesirable, which has motivated the development of alternative technologies. Instead of directly using ilmenite, "rutile slag" is used. This material, an impure form of, is derived from ilmenite by removal of iron, either using carbon reduction or extraction with sulfuric acid. Crude contains a variety of other volatile halides, including vanadyl chloride, silicon tetrachloride, and tin tetrachloride, which must be separated.
Applications
Production of titanium metal
The world's supply of titanium metal, about 250,000 tons per year, is made from. The conversion involves the reduction of the tetrachloride with magnesium metal. This procedure is known as the Kroll process:In the Hunter process, liquid sodium is the reducing agent instead of magnesium.
Production of titanium dioxide
Around 90% of the production is used to make the pigment titanium dioxide. The conversion involves hydrolysis of, a process that forms hydrogen chloride:In some cases, is oxidised directly with oxygen:
Smoke screens
It has been used to produce smoke screens since it produces a heavy, white smoke that has little tendency to rise. "Tickle" was the standard means of producing on-set smoke effects for motion pictures, before being phased out in the 1980s due to concerns about hydrated HCl's effects on the respiratory system.Chemical reactions
Titanium tetrachloride is a versatile reagent that forms diverse derivatives including those illustrated below.Image:TiCl4cmpds.png|center|500px
Alcoholysis and related reactions
A characteristic reaction of is its easy hydrolysis, signaled by the release of HCl vapors and titanium oxides and oxychlorides. Titanium tetrachloride has been used to create naval smokescreens, as the hydrochloric acid aerosol and titanium dioxide that is formed scatter light very efficiently. This smoke is corrosive, however.Alcohols react with to give alkoxides with the formula . As indicated by their formula, these alkoxides can adopt complex structures ranging from monomers to tetramers. Such compounds are useful in materials science as well as organic synthesis. A well known derivative is titanium isopropoxide, which is a monomer. Titanium bisdichloride results from treatment of titanium tetrachloride with excess acetylacetone:
Organic amines react with to give complexes containing amido and imido complexes. With ammonia, titanium nitride is formed. An illustrative reaction is the synthesis of tetrakistitanium, a yellow, benzene-soluble liquid: This molecule is tetrahedral, with planar nitrogen centers.
Complexes with simple ligands
is a Lewis acid as implicated by its tendency to hydrolyze. With the ether THF, reacts to give yellow crystals of. With chloride salts, reacts to form sequentially, , and. The reaction of chloride ions with depends on the counterion. and gives the pentacoordinate complex, whereas smaller gives. These reactions highlight the influence of electrostatics on the structures of compounds with highly ionic bonding.Redox
Reduction of with aluminium results in one-electron reduction. The trichloride and tetrachloride have contrasting properties: the trichloride is a colored solid, being a coordination polymer, and is paramagnetic. When the reduction is conducted in THF solution, the Ti product converts to the light-blue adduct.Organometallic chemistry
The organometallic chemistry of titanium typically starts from. An important reaction involves sodium cyclopentadienyl to give titanocene dichloride,. This compound and many of its derivatives are precursors to Ziegler–Natta catalysts. Tebbe's reagent, useful in organic chemistry, is an aluminium-containing derivative of titanocene that arises from the reaction of titanocene dichloride with trimethylaluminium. It is used for the "olefination" reactions.Arenes, such as react to give the piano-stool complexes . This reaction illustrates the high Lewis acidity of the entity, which is generated by abstraction of chloride from by aluminium trichloride|.