It decomposes completely to nitrogen, chlorine, and oxygen when heated gently.
The first two undergo catalytic combustion and the last is reduced back to nitrogen.
Large numbers of bacteria can react to reduce nitrite to nitrogen, which will give a false negative result.
Considering the rate at which carbon 14 decays to nitrogen even within human cells.
It takes 5,730 years for half the carbon-14 to change to nitrogen; this is the half-life of carbon-14.
The compound reduces to phosphorus and nitrogen in the presence of hydrogen at high temperatures.
The top surface of the glass is subjected to nitrogen under pressure to obtain a polished finish.
Additionally, astatine is known to bind to nitrogen, lead, and boron under the proper conditions.
It is a strong oxidizing agent, being reduced to nitrogen.
It may play a similar role in response to nitrogen (ammonia) starvation, a trigger for filamentation.