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Chem 1140; Introduction to Organometallic Chemistry General Mechanistic Principles Reactions with Wilkinson ’ s Catalyst.

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Presentation on theme: "Chem 1140; Introduction to Organometallic Chemistry General Mechanistic Principles Reactions with Wilkinson ’ s Catalyst."— Presentation transcript:

1 Chem 1140; Introduction to Organometallic Chemistry General Mechanistic Principles Reactions with Wilkinson ’ s Catalyst

2 A. Organometallic Mechanisms Oxidation State: The oxidation state of a metal is defined as the charge left on the metal after all ligands have been removed in their natural, closed-shell configuration. This is a formalism and not a physical property! d-Electron Configuration: position in the periodic table minus oxidation state. 18-Electron Rule: In mononuclear, diamagnetic complexes, the total number of electrons never exceeds 18 (noble gas configuration). The total number of electrons is equal to the sum of d-electrons plus those contributed by the ligands. 18 electrons = coordinatively saturated < 18 electrons = coordinatively unsaturated.

3

4

5 Bonding considerations

6 for M-CO:

7 Structure saturated (18 e - ) complexes: - tetracoordinate: Ni(CO) 4, Pd(PPh 3 ) 4 are tetrahedral - pentacoordinate: Fe(CO) 5 is trigonal bipyramidal - hexacoordinate: Cr(CO) 6 is octahedral unsaturated complexes have high d x 2 -y 2; 16e - prefers square planar

8 Basic reaction mechanisms - ligand substitution: M-L + L’  M-L’ + L can be associative, dissociative, or radical chain. trans-effect: kinetic effect of a ligand on the role of substitution at the position trans to itself in a square or octahedral complex (ground-state weakening of bond). L  M, repels negative charge to trans position.

9 - oxidative addition:

10 - reductive elimination: the major way in which transition metals are used to make C,C- and C,H-bonds!

11 - migratory insertion:

12 -  -elimination/hydrometalation:

13 - olefin metathesis:

14 - transmetalation: R-M + M’-X  R-M’ + M-X

15 Summary of Mechanisms: - ligand substitution - oxidative addition/reductive elimination - migratory insertion/  -elimination (carbo-, hydrometalation) - alkene metathesis - transmetalation

16 Reactions with Wilkinson ’ s Catalyst Alkene Hydrogenation

17 Mechanism

18 Reductions Where does the hydrogen come from????

19 Hydrosilylation

20 Hydrocarbonylation

21 Decarbonylation

22 Hydroformylation

23 Markownikow Hydroboration

24 Cycloisomerization

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