Crystal Field Theory Flashcards

1
Q

What is Organometallic Chemistry?

A

An organometallic complex is one which contains, by definition, at least one metal-carbon bond (ionic or covalent, localised or delocalised) between one or more carbon atoms of an organic groups or molecule and a main group, transition, lanthanide, or actinide metal atom (or atoms)

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2
Q

How does the formation of bond between ligands and transition metals in an octahedral complex, affect the energy of the d-orbitals within the metal

A
  • We get this octahedron splitting pattern with a t₂g set and a eg set split by the energy of Δo
  • dxy, dxz and dyz are in t₂g (orbitals away from ligands = lower repulsion = lower energy)
  • dz² and dx²-y² are in eg (orbtials towards ligands = more repulsion = higher energy)
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3
Q

How does the formation of bond between ligands and transition metals in a square planar complex, affect the energy of the d-orbtials within the metal

A
  • Going from an ocethedral to a square planar complex it is essentially like the z-plane has been removed, hence the dxz and dyz orbitals are lowest in energy
  • Ligands in the x-y plane go up in energy, so the dx²-y² and dxy go up in energy
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4
Q

What is the most likely transition see in a square planar complex?

A

d-d transition
From the dxy orbtial to the dx²-y² orbtial

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5
Q

How does the formation of a bond between ligands and transition metals in a tetrahedral complex, affect the energy of the d-orbitals within the metal

A
  • We get this tetrahedral splitting pattern with a t₂ set and a e set split by the energy of Δt
  • (no g because no centre of inversion)
  • dz² and dx²-y² are in the lower energy e set
  • dxy, dxz and dyz are in the higher energy t₂ set
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6
Q

What is Δt for a transition metal complex

A

= 4/9 Δo

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7
Q

What factors affect Δ?

A
  • Metal oxidation state - higher O.S. bigger Δ.
  • On moving from 3d→4d→5d = increase in Δ
  • Number and geometry of ligands (tetrahedral always high spin due to large Δt)
  • Nature of ligands - strong vs weak field ligands
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8
Q

What is the difference between a and b as symmetry lables

A

a singly degenerate, symmetric w.r.t. rotation about principal axis
b singly degenerate, antisymmetric w.r.t. rotation about principal axis

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9
Q

What do the symmetry lables e and t stand for

A

e doubly degenerate
t triply degenerate

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10
Q

What do the symmetry lables g and u stand for?

A

g centre of symmetry, even with respect to inversion (gerade)
u no centre of symmetry, odd with respect to nversion (ungerade)

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11
Q

The 4s orbitals on the metal form which bonding + antibonding molecular orbitals with ligands?

A

1 a1g bonding MO
2 a1g’ antibonding MO

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12
Q

The 4p orbitals on the metal form which bonding + antibonding molecular orbitals with ligands?

A

1 t1u bonding MO
2 t1u’ antibonding MO

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13
Q

The 3d orbtials on the metal form which bonding + antibonding molecular orbitals with ligands?

A

1 eg bonding MO
2 eg’ antibonding MO

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14
Q

Some of the 3d orbitals on the metal form which non-bonding molecular orbitals?

A

2 t2g

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15
Q

Most stable octahedral complexes have 18e- and up to which molecular orbital is filled?

A

Filling up to the t2g level (dxz, dyz, dxy)
A large HOMO-LUMO gap results and no antibonding orbitals are filled

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16
Q

The following diagram is molecular orbital theory for a square planar complex
Which orbtials are the antibonding and non-bonding MOs

A

2 b1g (dx²-y²) orbital is essentially anti-bodning
2 a1g (dz²) orbital is essentially non-bonding

17
Q

The square planar arrangement is frequently observed for…

A

group 10 M²⁺ complexes and other d⁸ metals
If not d⁸ (no electronic driver) it will be tetrahedral instead

18
Q

What is the HOMO for a tetrahedral complex?

A

the 2 t2 MO
(small Δ means high spin and the 1 e and 2 t₂ are singly paired)

19
Q

Name some π-acceptor ligands and explain how they affect Δo

A

π-acceptor ligands increase Δo
(electron density transferred to ligand π’ orbital so t2g orbitals are lowered in energy)
e.g. CO, PR₃, CN⁻

20
Q

Name some π-donor ligands and explain how they affect Δo

A

π-donor ligand decreases Δo
(electron density transferred from ligand π orbtial, or lone pairs, so t2g set raised in energy)
Weak field ligands: Cl, O, F