However, sodium azide isn’t found in many air bags these days — its nasty properties caused it to be phased out in the 1990s — but in its time, it saved a lot of people. If you want to see a ...

The chemistry of azide-tetrazole systems has attracted significant attention due to the intriguing equilibrium between the azido and tetrazole forms. This tautomeric interplay is not only ...

CuAAC weds an azide and an alkyne to make a triazole that connects two different molecular entities. As useful as CuAAC has been for scientists, synthesizing the azide is not trivial.

Covers basic chemistry as well as state-of-the-art applications in life science and materials science. World-ranked authors describe their own research in the wider context of azide chemistry.

The name "airbag" can be deceiving because the bag is not exactly filled with air. Instead, this life-saving device is filled with nitrogen gas, which is produced in a swift reaction by a compound ...

Many car airbag inflators contain small amounts of a toxic molecule called sodium azide, or NaN 3 (one sodium atom and three nitrogen atoms combined). Sodium azide breaks down very quickly when heated ...

The use of those in organometallic chemistry (very fast, highly exothermic) and two sodium-azide chemistry examples (alkylhalide --> alkylazide substitution; assembling a substituted triazole) will be ...

Sodium azide, a potentially lethal chemical, is used as a preservative agent in the extraction vial of many rapid COVID-19 tests kits. The Centers for Disease Control and Prevention (CDC) defines ...

Azide-Tetrazole Chemistry and NMR Spectroscopy Publication Trend The graph below shows the total number of publications each year in Azide-Tetrazole Chemistry and NMR Spectroscopy.

The liquid in some rapid at-home COVID-19 tests contains a small amount of the toxic chemical sodium azide, but they are safe when used properly.