What is outer-orbital complexes in chemistry ?
Octahedral complexes which is formed through sp3d2 hybridization, show that, 3d-orbitals of central metal ion remain unchanged.
In
this case, outer 4d-orbtals are
involved in hybridization and form octahedral
complexes.
Such a complex in which the central metal ion utilizes outer nd-orbitals is called outer-orbital complex.
For
example, hexaaquo nickel(II)ion,[ Ni ( H2O )6 ]2+
and hexaamine
zinc(II)ion, [ Zn( NH3)6 ]2+ are two outer-orbital complex .
According
to valence bond theory, the formation of
[ Ni ( H2O )6 ]2+ complex ion is shown
below.
The
outer-orbital complex has a large
number of unpaired electrons than their number in inner orbital complex of the
same metal ion due to unchanged of
Why are octahedral complexes of Co2+,Ni2+,Cu2+ and Zn2+ ions always outer-orbital ?
According to valence bond theory, it has been seen that, the octahedral complexes of Co2+,Ni2+,Cu2+ and Zn2+ ions are always outer-orbital .
This
can be explained on the basis of their electronic arrangement . From their
electronic arrangement it has been found that no ions among them have two
vacant 3d-orbitals.
Because,
all the above said ions contain seven or more electrons in their inner 3d-orbital.Hence,
in the formation of octahedral complexes, they can’t attain d2sp3
hybridization.
That
is, the metal ions, Co2+,Ni2+,Cu2+
and Zn2+ show sp3d2
hybridization by using their outervacant 4d-orbital.
Consequently,
all the octahedral complexes of Co2+,Ni2+,Cu2+
and Zn2+ ions are always outer-orbital.
The
electronic arrangement and hybridization of the Co2+,Ni2+,Cu2+ and Zn2+
ions are shown below.
Summary :
What is outer-orbital complexes in chemistry ?
Why are octahedral complexes of Co2+,Ni2+,Cu2+ and Zn2+ ions always outer-orbital ?
Why
are all square planar complexes always inner-orbital complexes ?
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