Preferred Label : radical (free radical);
IUPAC definition : A molecular entity such as ·CH sub 3 /sub , ·SnH sub 3 /sub , Cl·
possessing an unpaired electron. (In these formulae the dot, symbolizing the unpaired
electron, should be placed so as to indicate the atom of highest spin density, if
this is possible.) Paramagnetic metal ions are not normally regarded as radicals.
However, in the 'isolobal analogy' the similarity between certain paramagnetic metal
ions and radicals becomes apparent. At least in the context of physical organic chemistry,
it seems desirable to cease using the adjective 'free' in the general name of this
type of chemical species and molecular entity, so that the term 'free radical' may
in future be restricted to those radicals which do not form parts of radical pairs.
Depending upon the core atom that possesses the unpaired electron, the radicals can
be described as carbon-, oxygen-, nitrogen-, metal-centered radicals. If the unpaired
electron occupies an orbital having considerable s or more or less pure p character,
the respective radicals are termed σ- or π-radicals. In the past, the term 'radical'
was used to designate a substituent group bound to a molecular entity, as opposed
to 'free radical', which nowadays is simply called radical. The bound entities may
be called groups or substituents, but should no longer be called radicals.;
Origin ID : R05066;
False automatic mappings
- See also
A molecular entity such as ·CH sub 3 /sub , ·SnH sub 3 /sub , Cl·
possessing an unpaired electron. (In these formulae the dot, symbolizing the unpaired
electron, should be placed so as to indicate the atom of highest spin density, if
this is possible.) Paramagnetic metal ions are not normally regarded as radicals.
However, in the 'isolobal analogy' the similarity between certain paramagnetic metal
ions and radicals becomes apparent. At least in the context of physical organic chemistry,
it seems desirable to cease using the adjective 'free' in the general name of this
type of chemical species and molecular entity, so that the term 'free radical' may
in future be restricted to those radicals which do not form parts of radical pairs.
Depending upon the core atom that possesses the unpaired electron, the radicals can
be described as carbon-, oxygen-, nitrogen-, metal-centered radicals. If the unpaired
electron occupies an orbital having considerable s or more or less pure p character,
the respective radicals are termed σ- or π-radicals. In the past, the term 'radical'
was used to designate a substituent group bound to a molecular entity, as opposed
to 'free radical', which nowadays is simply called radical. The bound entities may
be called groups or substituents, but should no longer be called radicals.
