polymerization & metathesis catalysis polymerization is the reaction of an unsaturated organic...
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Polymerization & Metathesis Catalysis
Polymerization is the reaction of an unsaturated organic reactant, typically a C=C, with itself over and over again to produce a polymer chain:
**
nn
When only a few alkenes couple together to make a short chain, we refer to that as oligomerization (oligomers are very short polymers).
Initiation: generating the active catalyst from a less active catalyst precursor:
LnM-Cl LnM-R + AlR2Cl+ AlR3
+ MAO (methylalumoxane)
+ ZnR2
LnM-Cl LnM-H+ H- + Cl-
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Propagation: the polymer chain growth portion of the reaction that occurs over and over again:
M CH3 M CH3
M
H3C
M
H3C
MCH3
Termination: a reaction step that stops the polymer chain growth:
MCH3 CH3M H +
CH3M H +H2
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Cossee (migatory insertion) Propagation Mechanism
M CH3 M CH3
M
H3C
M
H3C
MCH3
The commonly accepted mechanism for polymer chain growth on a transition metal catalyst is the very simple migratory insertion mechanism initially proposed by Piet Cossee (Royal Shell labs) in 1964.
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MCH3 M
CH3H
MCH3
H
MCH3
HM
CH3
-hydride eliminationor
C-H oxidative addition
M
CH3
H
Green-Rooney (alkyidene metallacycle) Propagation Mechanism
However in 1978 Malcolm Green and John Rooney proposed a rather different mechanism based on the recently reported Schrock alkylidenes:
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CD2=CD2 + CH2=CH2 C2H5-(CD2CD2)n(CH2CH2)n-H
Cp2TiCl(C2H5)
Et2AlCl
HCl quench
MCH3 M
CH3H
MCH3
H
MCH3
HM
CH3
-hydride eliminationor
C-H oxidative addition
M
CH3
H
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Cp2Lu CD3 CH3+
Cp2Lu CD3
CH3
Cp2LuCD3
H3C
Cp2Lu CD2
D
CH3+ LuCp2 CD2
D
CH3
LuCp2 CD2
D
CH3
Cp2Lu CD2
CH2D
H3C
Migratory insertion mechanism - no H/D scrambling
Alkylidene/metallacycle/reductive eliminationmechanism can lead to H/D scrambling
No H-D scrambling and highregioselectivity supports the
migratory insertion mechanism forthis catalyst!
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TiX
CH3
TiCH3
vs
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Polypropylene & Stereochemistry
* *
* *
* *
isotactic
syndiotactic
atactic (random)
n
n
n
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ZrPolymer
ZrPolymer
C2 symmetry (chiral) - Isotactic polymer
N
SiMe2Zr
H2C Polymer
t-butyl
N
SiMe2Zr
t-butyl
Polymer
Bulky-Small Catalyst environment - Syndotactic polymer
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Late Transition Metal Polymerization Catalysts
NiN
NR
R
R'
H
NiN
NR
R
R'
H
R
R
NiN
NR
R
R'
H
R
R
+
NiN
NR
R
R'
R
R R
R
-hydrideelimination
ligandassociation
liganddissocation
associativedisplacement
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NiN
NR
RR
R
R'Ni
N
NR
RR
RR'
HNi
N
NR
RR
R
HR'
NiN
NR
RR
R
R'Ni
N
NR
RR
R
R'
NiN
NR
RR
R
R'
H
NiN
NR
RR
R
R' NiN
NR
RR
R
R' NiN
NR
R
R
R
R'
rotation ofalkene ligand
ligandrotation
ligandaddition
polymer chaingrowth continues
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Metathesis
+
+
C8 C8
C14 C2
Carrying this reaction out over and over with the more reactive terminal double bonds leads to acyclic diene metathesis (ADMET) polymerization with longer chain a,w-diene substrates. The general reaction relies on the loss of ethylene from the reaction mixture to drive the reaction to high couplings and molecular weights. The internal double bonds generated are not as reactive as the terminal double bonds for the metathesis reaction.
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M M M M
MMM
migratoryinsertion
migratoryinsertion
elimination
elimination
ethylenedissociation
dieneaddition
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Ring opening metathesis polymerization, ROMPis another mechanism for polymerization related to the Green-Rooney alkylidene pathway that can operate when one deals with cyclic alkenes.
ROMP works best on cyclic alkenes that have some ring strain to drive the ring opening process and minimize possible ring closing reactions.
Cp2Ti Cp2Ti Cp2Ti
Cp2Ti
Cp2Ti
migratoryinsertion
elimination
Cp2Ti
Cp2Ti
migratoryinsertion
elimination
Cp2Ti