Open Access Articles- Top Results for Azane


This article is about the class of chemical compounds. For the compound, see Ammonia.
Chemical structure of ammonia, the simplest azane

Azanes /ˌæzns/ are saturated hydronitrogens, which means that they consist only of hydrogen and nitrogen atoms and all bonds are single bonds. By definition, cycles are excluded, so that the azanes comprise a homologous series of inorganic compounds with the general chemical formula Template:Chem/atomTemplate:Chem/atomTemplate:Chem/atomTemplate:Chem/atom.

Each nitrogen atom has three bonds (either N-H or N-N bonds), and each hydrogen atom is joined to a nitrogen atom (H-N bonds). A series of linked nitrogen atoms is known as the nitrogen skeleton or nitrogen backbone. The number of nitrogen atoms is used to define the size of the azane (e.g. N2-azane).

The simplest possible azane (the parent molecule) is ammonia, Template:Chem/atomTemplate:Chem/atom. There is no limit to the number of nitrogen atoms that can be linked together, the only limitation being that the molecule is acyclic, is saturated, and is a hydronitrogen.

Azanes are reactive and have significant biological activity. Azanes can be viewed as a more biologically active or reactive portion (functional groups) of the molecule, which can be hung upon molecular trees.

Structure clasification

Saturated hydronitrogens can be:

According to IUPAC definitions, the former two are azanes, whereas the third group is called cycloazanes. Saturated hydronitrogens can also combine any of the linear, cyclic (e.g. polycyclic), and branching structures, and they are still azanes (no general formula) as long as they are acyclic (i.e., having no loops). They also have single covalent bonds between their nitrogens.


Azanes with more than three nitrogen atoms can be arranged in various different ways, forming structural isomers. The simplest isomer of an azane is the one in which the nitrogen atoms are arranged in a single chain with no branches. This isomer is sometimes called the n-isomer (n for "normal", although it is not necessarily the most common). However the chain of nitrogen atoms may also be branched at one or more points. The number of possible isomers increases rapidly with the number of nitrogen atoms.

Due to the low energy of inversion, unsubstituted branched azanes cannot be chiral. In addition to these isomers, the chain of nitrogen atoms may form one or more loops. Such compounds are called cycloazanes.


The IUPAC nomenclature systematically naming nitrogen compounds by identifying hydronitrogen chains, analogous to the alkane nomenclature. Unbranched, saturated hydronitrogen chains are named with a Greek numerical prefix for the number of nitrogens and the suffix "-azane" for hydronitrogens with single bonds, or "-azene" for those with double bonds.[1]

Linear azanes

Straight-chain azanes are sometimes indicated by the prefix n- (for normal) where a non-linear isomer exists. Although this is not strictly necessary, the usage is common in cases where there is an important difference in properties between the straight-chain and branched-chain isomers.

The members of the series (in terms of number of nitrogen atoms) are named as follows:

ammonia, NH3 - one nitrogen and three hydrogen
diazane (or hydrazine), Template:Chem/atomTemplate:Chem/atomTemplate:Chem/atomTemplate:Chem/atom - two nitrogen and four hydrogen
triazane, Template:Chem/atomTemplate:Chem/atomTemplate:Chem/atomTemplate:Chem/atom - three nitrogen and five hydrogen

Azanes with three or more nitrogen atoms are named by adding the suffix -ane to the appropriate numerical multiplier prefix. Hence, triazane, Template:Chem/atomTemplate:Chem/atomTemplate:Chem/atomTemplate:Chem/atom; tetrazane or tetraazane, Template:Chem/atomTemplate:Chem/atomTemplate:Chem/atomTemplate:Chem/atom; pentazane or pentaazane, Template:Chem/atomTemplate:Chem/atomTemplate:Chem/atomTemplate:Chem/atom; hexazane or hexaazane, Template:Chem/atomTemplate:Chem/atomTemplate:Chem/atomTemplate:Chem/atom; etc. The prefix is generally Greek, with the exceptions of nonaazane which has a Latin prefix, and undecaazane and tridecaazane which have mixed-language prefixes.


Ammonia is explosive when mixed with air (15 – 25%). Other lower azanes can also form explosive mixtures with air. The lighter liquid azanes are highly flammable; this risk increases with the length of the nitrogen chain.

Considerations for detection and risk control:

  • Ammonia is lighter than air (possibility of accumulation on roofs)
  • Hydrazine is slightly lighter than air (possibility of accumulation on roofs)


For more details on organoamines, see amine.

The organoazanes are a group of chemical compounds derived from azanes containing one or more organic groups. They are a subset of the general class of organonitrogens, although the distinction is not often made. As with organoamines, organohydrazines are a subsets of organoazanes, derived from ammonia, and hydrazine, respectively.

In addition to amines and hydrazines, organoazanes also include compounds such as, hydrazones, imines, nitriles, and nitrosos, but excludes compounds such as, but not limited to azo compounds.

Many substituted hydrazines are known, and several occur naturally. Some examples include

Related and derived hydronitrogens

Related to the azanes are a homologous series of functional groups, side-chains, or radicals with the general chemical formula Template:Chem/atomTemplate:Chem/atomTemplate:Chem/atomTemplate:Chem/atom. Examples include azanyl (Template:Chem/atomTemplate:Chem/atom) and hydrazinyl. This group is generally abbreviated with the symbol N.[citation needed]


  1. Note that -ine (or -yne) is absent because the only member of that series, N2, is strictly not a hydronitrogen.