Major uses of the group 13 elements and their compounds

    The widespread applications of Al are summarized in Figure 1.1a; its strength can be increased by alloying with Cu or Mg. Aluminium oxide  has many important uses. Corundum (a-alumina) and emery (corundum mixed with the iron oxides magnetite and haematite) are extremely hard and are used as abrasives; diamond is the only naturally occurring mineral harder than corundum.

    Gemstones including ruby, sapphire, oriental topaz, oriental amethyst and oriental emerald result from the presence of trace metal salts in Al₂O₃, e.g. Cr(III) produces the red colour of ruby. Artificial crystals can be manufactured from bauxite in furnaces, and artificial rubies are important as components in lasers. The g-form of Al₂O₃ is used as a catalyst and as a stationary phase in chromatography. Al₂O₃ fibres are described in Section 27.7.

Fig. 1.1 (a) Uses of aluminium in the US in 2001; the US is the world’s largest producer of the metal and in 1990, a quarter of that manufactured was exported. (b) Uses of boron in the US in 2001; the data are given in terms of tonnes of boron oxide content. [Data: US Geological Survey.]

    The two commercially most important borates are Na₂ [B₄O₅(OH)₄]. 8H₂O (borax) and Na₂ [B₄O₅(OH)₄]. 2H₂O (kernite). Figure 1.1b illustrates the applications of boron (in terms of boron oxide usage). Borosilicate glass has a high refractive index and is suitable for optical lenses. Borax has been used in pottery glazes for many centuries and remains in use in the ceramics industry. The reaction between fused borax and metal oxides is the basis for using borax as a flux in brazing; when metals are being fused together, coatings of metal oxides must be removed to ensure good metal–metal contact at the point of fusion.

      Boric acid, B(OH)₃, is used on a large scale in the glass industry, as a flame retardant (see Box 16.1), as a component in buffer solutions and is also an antibacterial agent. The use of B₂O₃ in the glass industry is described in Box 12.5.

    Elemental boron is used in the production of impactresistant steels and (because 10B has a high cross-section for neutron capture) in control rods for nuclear reactors. Amorphous B is used in pyrotechnics, giving a characteristic green colour when it burns.

   Gallium and indium phosphides, arsenides and antimonides have important applications in the semiconductor industry.  They are used as transistor materials and in light-emitting diodes (LEDs) in, for example, pocket calculators; the colour of the light emitted depends on the band gap. Figure 1.1 shows that, in 2001, the US used 37% of the gallium produced worldwide.

Fig. 1.1 World production and US consumption of gallium between 1975 and 2001. [Data: US Geological Survey.]

Almost all of this was used in the form of GaAs: 34% went into LEDs, laser diodes, photodetectors and solar cells, while 65% found application in integrated circuits, e.g. in high-performance computers. (Miscellaneous uses, including research and development, account for the remaining 1%.) Markets linked to the electronics industry are susceptible to fluctuation depending on world or local economies. This is apparent in Figure 1.1 where the decrease in demand for gallium (specifically GaAs) in the US between 2000 and 2001 can be attributed to a drop in sales of mobile phones. The largest use of indium is in thin-film coatings, e.g. liquid-crystal displays and electroluminescent lamps; in 2002, these applications accounted for 45% of the indium used in the US. Indium is also used in lead-free solders, in semiconductors, for producing seals between glass, ceramics and metals (because In has the ability to bond to non-wettable materials), and for fabricating special mirrors which reduce headlight glare. Uses of indium–tin oxide (ITO) are highlighted in. 

   Thallium sulfate used to be used to kill ants and rats, but the extremely high toxicity levels of Tl compounds are now well recognized and all Tl-containing species must be treated with caution. The world production of thallium (15 000 kg in 2001) is far less than that of gallium (Figure 1.1) and indium. Important uses of Tl are in semiconducting materials in selenium rectifiers, in Tl-activated NaCl and NaI crystals in γ-radiation detectors, and in IR radiation detection and transmission equipment. The radioisotope ²⁰¹Tl (t_1/2= 12.2 d) is used for cardiovascular imaging.