Summary
Boron trifluoride is the inorganic compound with the formula . This pungent, colourless, and toxic gas forms white fumes in moist air. It is a useful Lewis acid and a versatile building block for other boron compounds. The geometry of a molecule of is trigonal planar. Its D3h symmetry conforms with the prediction of VSEPR theory. The molecule has no dipole moment by virtue of its high symmetry. The molecule is isoelectronic with the carbonate anion, . is commonly referred to as "electron deficient," a description that is reinforced by its exothermic reactivity toward Lewis bases. In the boron trihalides, , the length of the B–X bonds (1.30 Å) is shorter than would be expected for single bonds, and this shortness may indicate stronger B–X π-bonding in the fluoride. A facile explanation invokes the symmetry-allowed overlap of a p orbital on the boron atom with the in-phase combination of the three similarly oriented p orbitals on fluorine atoms. Others point to the ionic nature of the bonds in . is manufactured by the reaction of boron oxides with hydrogen fluoride: Typically the HF is produced in situ from sulfuric acid and fluorite (). Approximately 2300-4500 tonnes of boron trifluoride are produced every year. For laboratory scale reactions, is usually produced in situ using boron trifluoride etherate, which is a commercially available liquid. Laboratory routes to the solvent-free materials are numerous. A well documented route involves the thermal decomposition of diazonium salts of : Alternatively it arises from the reaction of sodium tetrafluoroborate, boron trioxide, and sulfuric acid: Anhydrous boron trifluoride has a boiling point of −100.3 °C and a critical temperature of −12.3 °C, so that it can be stored as a refrigerated liquid only between those temperatures. Storage or transport vessels should be designed to withstand internal pressure, since a refrigeration system failure could cause pressures to rise to the critical pressure of 49.85 bar (4.985 MPa). Boron trifluoride is corrosive.
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