Diazotization safety

Quote: Originally posted by maxpayne

If temperature is higher than 5°C, this compund is unstable and N2 gas is formed, and halogen replaces the amine group.

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Quote: Originally posted by Nicodem   Quote: Originally posted by maxpayne   Why this process do not cause dramatic energy release as is when diazonium compound is isolated as crystals and detonated? Obviously a reaction, even if highly exothermic, can never be as dramatic as a detonation. Reaction kinetics and shock waves make a world of a difference. An exothermic reaction in solution has the solvent to absorb most of the heat generated. The heat given off by the decomposition of a substance in a crystal is transferred only to the parts of the crystal surrounding the bit that gave it off, which heats those parts up dramatically and causing them to decompose as well. Then they give off heat, destroying their neighbors, and so on, and so on.

Quote: Originally posted by Nicodem

Quote: Originally posted by maxpayne   If temperature is higher than 5°C, this compund is unstable and N2 gas is formed, and halogen replaces the amine group. Where did you get that from? There is no such rule of the 5 °C. Diazonium compounds can either decompose immediately upon formation, deprotonate to diazo compounds, or form isolable and stable salts at room temperature or higher. It all depends on their structure. Quote: Why this process do not cause dramatic energy release as is when diazonium compound is isolated as crystals and detonated? Obviously a reaction, even if highly exothermic, can never be as dramatic as a detonation. Reaction kinetics and shock waves make a world of a difference.

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Quote: Originally posted by DraconicAcid   Quote: Originally posted by Nicodem   Quote: Originally posted by maxpayne   Why this process do not cause dramatic energy release as is when diazonium compound is isolated as crystals and detonated? Obviously a reaction, even if highly exothermic, can never be as dramatic as a detonation. Reaction kinetics and shock waves make a world of a difference. An exothermic reaction in solution has the solvent to absorb most of the heat generated. The heat given off by the decomposition of a substance in a crystal is transferred only to the parts of the crystal surrounding the bit that gave it off, which heats those parts up dramatically and causing them to decompose as well. Then they give off heat, destroying their neighbors, and so on, and so on. I did not expect such beautiful explanation! Thanks!!

Quote: Originally posted by maxpayne

I get it from Wikipedia : Diazonium_compound "In aqueous solution diazonium salts are unstable at temperatures above +5 °C; the -N+≡N group tends to be lost as N2 (nitrogen gas)." So, this is not a general rule?