JAHN TELLER THEOREM
The six coordinated complex will be called as a regular
octahedral complex if all the six distances between metal and ligand is same
(ML1 = ML2 = ML3 = ML4 = ML5
= ML6). In other words, a regular octahedral complex is formed if
the arrangement of electrons in t2g and eg are
symmetrical.
Instead if the arrangement of electrons in t2g
and eg are unsymmetrically filled then, the regular octahedral
geometry will be unstable and they transform into a distorted octahedral
geometry which is called TETRAGONAL DISTORTION.
1. Tetragonally
elongated distorted octahedral complex: Here the axial bonds are longer than
the equatorial bonds (ML1 = ML6 > ML2 = ML3
= ML4 = ML5). Example: CuF2
2. Tetragonally
compressed distorted octahedral complex: Here the equatorial bonds are longer
than the axial bonds (ML1 = ML6 < ML2 = ML3
= ML4 = ML5). Example: K2CuF4
These distortion depends upon the
type of metal and ligands. The stronger the metal-ligand interactions, the
greater is the chance for Jahn-Teller effect.
STATEMENT OF JAHN TELLER DISTORTION:
“For any non-linear molecule in
degenerate electronic state which is unstable will undergo Jahn-Teller
distortion (JTD) to form a system of lower symmetry and lower energy, thereby
removing the degeneracy.”
CASES INVOLVED IN JTD OF OCTAHEDRAL
COMPLEXES:
|
CONDITIONS
|
OUTCOME
|
REASON
|
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|
If
the arrangement
of electrons in t2g and eg are symmetrical |
No Jahn-Teller distortion
(JTD) |
All
the six ligand experiences repulsive force of same amount. |
||||
|
If
the arrangement
of electrons
in t2g is unsymmetrical and eg is symmetrical |
Slight
JahnTeller distortion (JTD)
|
The
lobes of t2g set d-orbitals lies in between the approaching
ligands (between the axis). |
||||
|
If
the arrangement
of electrons in t2g
is symmetrical and eg
is unsymmetrical
|
Strong
Jahn- Teller distortion (JTD)
|
The
lobes of eg set d-orbitals lies directly in the path of
approaching ligands (along the axis). |
||||
|
|
STRONG FIELD/LOW SPIN/LARGE ∆ VALUE |
JAHN TELLER DISTORTION |
WEAK FIELD/HIGH
SPIN/ SMALL ∆ VALUE |
JAHN TELLER DISTORTION |
|||
|
d1 |
t2g1 eg0 |
Weak JTD |
t2g1 eg0 |
Weak
JTD |
|||
|
d2 |
t2g2 eg0 |
Weak JTD |
t2g2 eg0 |
Weak
JTD |
|||
|
d3 |
t2g3 eg0
|
No JTD |
t2g3 eg0
|
No JTD |
|||
|
d4 |
t2g4 eg0 |
Weak JTD |
t2g3 eg1 |
Strong
JTD |
|||
|
d5 |
t2g5 eg0 |
Weak JTD |
t2g3 eg2
|
No JTD |
|||
|
d6 |
t2g6 eg0
|
No JTD |
t2g4 eg2 |
Weak
JTD |
|||
|
d7 |
t2g6 eg1 |
Strong JTD |
t2g5 eg2 |
Weak
JTD |
|||
|
d8 |
t2g6 eg2
|
No JTD |
t2g6 eg2
|
No JTD |
|||
|
d9 |
t2g6 eg3 |
Strong JTD |
t2g6 eg3 |
Strong
JTD |
|||
|
d10 |
t2g6 eg4
|
No JTD |
t2g6 eg4
|
No JTD |
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