- Definition of B3N3H6
B3N3H6, also known as Borazane or Dicarborane, English name Borazine, is a type of chemical compound consisting of 3 boron atoms (B), 3 nitrogen atoms (N) and 6 hydrogen atoms (H). The atomic mass of B3N3H6 is 80.5 g/mol. The molecular structure of B3N3H6 is similar to the structure of Benzene, where 3 boron atoms and 3 nitrogen atoms alternate to form a six-sided ring, 6 hydrogen atoms are attached to 3 boron atoms. B3N3H6 does not form ions.
- Properties of B3N3H6
2.1 Physical Properties of B3N3H6
B3N3H6 is in the solid state, colorless, odorless and has a neutral PH.
2.2 Chemical Properties of B3N3H6
B3N3H6 has the ability to react with oxygen to create boron oxides and nitrogen. It is also susceptible to chemical decomposition when exposed to high temperatures.
- Common Chemical Equations of B3N3H6
B3N3H6 does not react with metals, acids or non-metals. However, it can react with water to produce boron, nitrogen and hydrogen.
- Synthesis of B3N3H6
4.1 Laboratory synthesis of B3N3H6
B3N3H6 can be synthesized via the reaction between diborane (B2H6) and ammonia (NH3) under high temperature and pressure conditions.
4.2 Industrial synthesis of B3N3H6
In the industry, B3N3H6 is synthesized from the reaction between boron trifluoride (BF3) and ammonia (NH3) under high temperature and pressure conditions.