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B2P3 Definition:
B2P3, accurately named as Di-phosphidotetraboran(6) in the IUPAC system, is a compound of boron and phosphorus. The atomic mass of B2P3 is 108.65 g/mol. The B2P3 molecule consists of two boron atoms and three phosphorus atoms. The structure of the B2P3 molecule is quite complex, with boron and phosphorus linked together to form molecular rings. B2P3 does not generate ions under normal conditions. -
B2P3 Properties:
B2P3 is a solid substance with color ranging from white to slightly yellowish. B2P3 does not have a distinctive smell. The pH of B2P3 is undefined as it does not dissolve in water. The chemical properties of B2P3 are quite complex and depend on the reaction conditions. -
Common Chemical Equations of B2P3:
B2P3 is involved in various chemical reactions, however, due to its special properties, these reactions are usually complex and not commonly found in high school chemistry curriculum. -
Preparation of B2P3:
B2P3 is typically prepared through the reaction between boron and phosphorus at high temperatures. In the laboratory, B2P3 can be synthesized from BCl3 and PCl3. However, this process requires stringent conditions and is not suitable for home preparation. On an industrial scale, B2P3 is typically produced by heating a mixture of boron and phosphorus in an electric resistance furnace at high temperatures.