Organometallic Compounds: Chapter 11

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Title: Organometallic Compounds: Chapter 11

1
Organometallic CompoundsChapter 11
2
Organometallic Compounds

3
Grignard Lithium Reagents

Grignard and lithium Organometallic reagents made
by reacting a halide with elemental metal
Mg essentially slides into C-halogen bond
Li simply replaces halogen

4
Grignard Lithium Reagents

Although the carbonmetal bonds are not
completely ionic, organolithium compounds and
Grignard reagents react as if the carbon portion
were a carbanion
Consider the reaction of a Grignard reagent with
an ethylene oxide
Ethylene oxide is a good way to extend a carbon
chain by two carbons via use of halide to make
organometallic cpd with negative charge on C

5
Gilman Reagents

Gilman reagents, also called organocuprates, are
prepared from the reaction of an organolithium
reagent with copper(I) iodide in diethyl ether or
THF

6
Gilman Reagents

When a Gilman reagent reacts with an alkyl halide
(except F-) one of the alkyl groups replaces the
halide
Alkyl groups can substitute halogens attached to
alkene or aromatic C with Gilman reagent
impossible with SN1 or SN2 reaction
Mechanism unknown, probably radical

7
Suzuki and Heck Reactions

Various palladium catalysts substitute ordinary
unfunctionalized alkenes for Br, I, or triflate
(OTf) leaving group attached to benzene or alkene
(Heck).
Reagent can even be made to substitute alkyl
groups if a dialkoxyalkylborane reagent is used
with it (Suzuki).

8
Grubbs Schrock Metathesis

Terminal alkenes couple eliminating ethylene with
rhodium catalyst (Grubbs).
Terminal alkynes couple eliminating acetylene
(ethyne) using molybdenum or tungsten catalyst
(Schrock).

9
Retrosynthetic Analysis Using Ethylene Oxide (EO)