An important driving force for this type of reaction is the expulsion of small gaseous molecules such as acetylene or 2-butyne.

Chemical sensors, too, have been built using nanotubes to detect various properties of gaseous molecules.

At high temperatures, the gaseous molecules break up into monomers:

The Al-F bond lengths of this gaseous molecule are 163 pm.

The thin polymer layer acts like a concentrator that absorbs gaseous molecules.

It measures directly the pure rotational spectrum of a gaseous molecule.

Therefore, when produced in biologic systems (cells), these gaseous molecules are referred to as gasotransmitters.

From 1950 to 1970, Brewer published many papers on the analysis of the spectra produced by high-temperature gaseous molecules.

Gasotransmitters are gaseous molecules synthesized in the body.

Electronic transitions of gaseous molecules will show both vibrational and rotational fine structure.