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HECK Reaction

The Heck reaction is a palladium-catalyzed coupling between aryl halides or vinyl halides and alkenes in the presence of base. The reaction proceeds through oxidative addition of the aryl or vinyl halide to Pd(0), followed by migratory insertion and β-hydride elimination. Using silver salts can minimize alkene isomerization by forming a cationic Pd complex that is more reactive. The Heck reaction is useful for ring closures and tandem reactions when β-hydride elimination is not possible.

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Shweta Umale
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201 views10 pages

HECK Reaction

The Heck reaction is a palladium-catalyzed coupling between aryl halides or vinyl halides and alkenes in the presence of base. The reaction proceeds through oxidative addition of the aryl or vinyl halide to Pd(0), followed by migratory insertion and β-hydride elimination. Using silver salts can minimize alkene isomerization by forming a cationic Pd complex that is more reactive. The Heck reaction is useful for ring closures and tandem reactions when β-hydride elimination is not possible.

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Shweta Umale
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The Heck Reaction

The Heck reaction is a palladium-catalyzed C-C coupling between aryl halides or vinyl halides (or triflates) and
Activated alkenes in the presence of base.

Example:
Pd(OAc)2 OCH3

+ PPh3
Br OCH3
O
Et3N
O

Mechanism:

migratory
The Cationic Heck Reaction: Use of Silver Salts

Pd(II)

2 PPh3; 2e
AgHCO3
PhBr
Pd(0) L2

AgCO3- H–Pd(II)L2+
Ph––Pd(II)––Br

Ag+
R Ph
AgBr
!-Hydride elim Ph––Pd(II)+

H L2+(II)Pd Ph
L2+(II)Pd
Ph H R
R R H
H
cis-complex

cationic palladium complex is more reactive toward pi-complexation of alkenes!


Examples
SiMe3

SiMe3
I
+ desilylation at elevated
Pd(OAc)2, Et3N temperatures!
DMSO, 100°C
12% 57%

SiMe3

SiMe3 SiMe3 OTf


I

Pd(OAc)2, Et3N JOC 1988, 4909


Pd(OAc)2, Et3N
AgNO3 DMSO, DMSO, 50°C
50°C
64%

Reversible !-hydride elimination leads to alkene isomerization:

Pd Pd
H
H H

R R
R

The use of silver slats minimizes alkene isomerization:

I Pd(OAc)2 Ag2CO3 eq. Yield A


PPh3 1 35
+
DMF 2 80
N N N
SO2Ph SO2Ph SO2Ph

A: desired B: by-product Lifetime of HPd(II)L2+ is short in presence


JOC 1987, 4133 of base
Details of Heck Reaction

Catalysts: Pd2(dba)3, Pd(OAc)a


Solvents: toluene, THF, DMF

Soluble bases: Et3N, H3C CH3 Insoluble bases: K2CO3, Ag2CO3


H3C N CH3

CH3

PMP

Phase Transfer Catalysis: stabilization of Pd complexes by halide ions; allows lower reaction temperatures

O
Pd(OAc)2
O NaHCO3
I
OCH3 99% with nBu4NCl
+ OMe 2% without nBu4NCl
DMF, 50°C
nBu4NCl
Tet. 1996, 10113

Heck Coupling of Aryl Chlorides


O
Pd2dba3
O P(tBu)3
Cl
OCH3
+ OMe JOC, 1999, 10
CsCO3 H3CO
H3CO
dioxane, 82%
120°C
Regiochemistry of Heck Reactions

Neutral Pd complexes: regiochemistry governed by sterics


40
20
10
O
Ph
N CH3
100 OH

90 OH 80
60
Y

100
Y=CO2R
CN
CONH2
Cationic Pd complexes: regiochemistry governed by electronics; addition to the site of least electron density
40
100

95 90
O
Ph
N CH3
60 OH

5 OH 10
Y

100 Y=CO2R
CN
CONH2 Acc. Chem. Res. 1995, 2.
JOC, 1992, 1482.
Ring Closure Using the Heck : Endo vs. Exo

X
H
Exo Pd(II)Ln Endo

Useful for macrocyclizations:


O
O

PdCl2(CH3CN)2 Tet, 1981. 4035.


Et3N
H I CH3CN

O
O

O
O

Five, Six, and Seven-membered ring closure gives predominantly exo products:

OCH3

DBSN
OBn
Pd(OCOCF3)2
PMP, toluene
120°C JACS, 1993, 11028.
I
BnO DBSN
OMe
Tandem Reactions
When β-hydride elimination is not possible, additional reaction pathways may ensue:

R2
Heck-sp2
R1–Pd–X R3
carbonylation
CO2CH3 PdX PdX
CO, CH3OH R3
R1 R1 R1
R2 R2 R2

R3–X
R3
R3

R3
PdX
R1 Heck-sp3
R2 R1
R2
alkylation

Tandem Heck Reactions:

R I LnPd CH3
PdLn
Pd(OAc)2
PPh3 OR

OR Ag2CO3
THF, 65°C
RO OR
JOC, 1993, 5304
JACS, 1999, 5467.
Tandem Heck Reactions, continued:
PdLnBr
Pd(OAc)2, H
BrLnPd
PPh3
Ag2CO3
Br
HO HO
CH3CN, 80°C
OH

Tet, 1996, 11545


6!-electrocyclization

HO HO

Tandem Suzuki-Heck:
85%
H3C

9-BBN I OR
TfO
TfO TfO
CO2Me PdCl2(dppf)
CO2Me CO2Me
AsPh3
B
CsHCO3, DMSO
85°C
OR

TL, 1997, 3455

Me
RO

CO2Me
Asymmetric Heck Reactions
Pd2(dba)3, provides a chiral
TfO L (6 mol%) H
L= environmanet for Pd
+ O
O iPr2NEt O
PPh2 N

99%ee

Chiral BINAP ligands for Pd:


PPh2 PPh2

PPh2 PPh2

S-BINAP R-BINAP

Pd2dba3
R-BINAP
Ag3PO4 92%ee
Synlett, 1995, 597
DMF
SiMe3 H

Pd(OAc)2 CO2CH3
CO2CH3
R-BINAP
JACS, 1994, 11737
K2CO3
TfO KOAc H

86%ee
Asymmetric Heck Reactions, Continued

Pd(OAc)2
R-BINAP
JACS, 1993, 8477
H3CO OTf K2CO3, THF H3CO
OR 60°C H3C OR

90%ee

H3CO I OR H3C
Pd2dba3 3M HCl CHO
O
S-BINAP O
N N
CH3 PMP, DMA CH3

95% ee

JACS, 1998, 6500

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