Preferred Label : aromaticity;
IUPAC acronym : MO;
IUPAC definition : The concept of spatial and electronic structure of cyclic molecular systems displaying
the effects of cyclic electron delocalization which provide for their enhanced thermodynamic
stability (relative to acyclic structural analogues) and tendency to retain the structural
type in the course of chemical transformations. A quantitative assessment of the degree
of aromaticity is given by the value of the resonance energy. It may also be evaluated
by the energies of relevant isodesmic and homodesmotic reactions. Along with energetic
criteria of aromaticity, important and complementary are also a structural criterion
(the lesser the alternation of bond lengths in the rings, the greater is the aromaticity
of the molecule) and a magnetic criterion (existence of the diamagnetic ring current
induced in a conjugated cyclic molecule by an external magnetic field and manifested
by an exaltation and anisotropy of magnetic susceptibility). Although originally introduced
for characterization of peculiar properties of cyclic conjugated hydrocarbons and
their ions, the concept of aromaticity has been extended to their homoderivatives
(see homoaromaticity), conjugated heterocyclic compounds (heteroaromaticity), saturated
cyclic compounds (σ-aromaticity) as well as to three-dimensional organic and organometallic
compounds (three-dimensional aromaticity). A common feature of the electronic structure
inherent in all aromatic molecules is the close nature of their valence electron shells,
i i.e /i ., double electron occupation of all bonding MOs with all antibonding and
delocalized nonbonding MOs unfilled. The notion of aromaticity is applied also to
transition states.;
Origin ID : A00442;
Automatic exact mappings (from CISMeF team)
- See also
The concept of spatial and electronic structure of cyclic molecular systems displaying
the effects of cyclic electron delocalization which provide for their enhanced thermodynamic
stability (relative to acyclic structural analogues) and tendency to retain the structural
type in the course of chemical transformations. A quantitative assessment of the degree
of aromaticity is given by the value of the resonance energy. It may also be evaluated
by the energies of relevant isodesmic and homodesmotic reactions. Along with energetic
criteria of aromaticity, important and complementary are also a structural criterion
(the lesser the alternation of bond lengths in the rings, the greater is the aromaticity
of the molecule) and a magnetic criterion (existence of the diamagnetic ring current
induced in a conjugated cyclic molecule by an external magnetic field and manifested
by an exaltation and anisotropy of magnetic susceptibility). Although originally introduced
for characterization of peculiar properties of cyclic conjugated hydrocarbons and
their ions, the concept of aromaticity has been extended to their homoderivatives
(see homoaromaticity), conjugated heterocyclic compounds (heteroaromaticity), saturated
cyclic compounds (σ-aromaticity) as well as to three-dimensional organic and organometallic
compounds (three-dimensional aromaticity). A common feature of the electronic structure
inherent in all aromatic molecules is the close nature of their valence electron shells,
i i.e /i ., double electron occupation of all bonding MOs with all antibonding and
delocalized nonbonding MOs unfilled. The notion of aromaticity is applied also to
transition states.
