sean parris, olefin bisfunctionalisation the ad catalytic cycle chem. rev. 1994, 94, 2483-2547
TRANSCRIPT
![Page 1: Sean Parris, Olefin Bisfunctionalisation The AD Catalytic Cycle Chem. Rev. 1994, 94, 2483-2547](https://reader035.vdocuments.us/reader035/viewer/2022062620/551ae64755034606048b5bc7/html5/thumbnails/1.jpg)
Sean Parris, Olefin Bisfunctionalisation
The AD Catalytic Cycle
O
Os
L*
OOO
R
R
HO
R
OH
R
R
R
R
R
O
Os OOO
O
HO
R
OH
R
R
R
O
Os OOO
OR
R
R
RO
OsOO
OL*
L*
PrimaryCycle
SecondaryCycle
high e.e.
low e.e.
L*
H2O
H2O
[O]
A
B
C
Os(VIII)
Os(VI)
Os(VIII)
Os(VI)
Chem. Rev. 1994, 94, 2483-2547
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Sean Parris, Olefin Bisfunctionalisation
Shutting Down the Secondary Cycle
O
Os
O
OOHO
HOO
Os
O
OHOHHO
HO
HO
R
OH
R
O
Os
L*
OOO
R
R
R
R
O
OsOO
O
+ L*
2 OH2 H2O
Organic Phase
Aqueous Phase
2 H2O2 Fe(CN)6
2 OH2 Fe(CN)6
3 4
+ L*
2 22 OH
Os(VI) Os(VIII)
Os(VI)
Os(VIII)
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Sean Parris, Olefin Bisfunctionalisation
The Cinchona Alkaloids
(DHQ)2PHAL“AD-”
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Sean Parris, Olefin Bisfunctionalisation
The AD-Mix Mnemonic
Works best for:• trans alkenes • terminal olefins quite bad• with aromatic ring to sit in “attractive area”
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Sean Parris, Olefin Bisfunctionalisation
Which Ligand System?
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Sean Parris, Olefin Bisfunctionalisation
Racemic Dihydroxylation – Beyond Upjohn
Upjohn (NMO, OsO4) can be slow & prone to over-oxidation
J. Eames, H. Mitchell, A. Nelson, P. O’Brien, S. Warren, P. Wyatt, Perkin 1 1999, p1095
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Sean Parris, Olefin Bisfunctionalisation
Sharpless Asymmetric Aminohydroxylation (AA)
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Sean Parris, Olefin Bisfunctionalisation
Sharpless et al. Angew. Int. 1997 438
Sharpless Asymmetric Aminohydroxylation (AA)
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Sean Parris, Olefin Bisfunctionalisation
AA –Mechanism
Review: McLeod et al, Perkin 1, 2002, 2733
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Sean Parris, Olefin Bisfunctionalisation
AA – Standard Conditions?
Review: P. O’Brien, Angew. Int, 1999, 326
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Sean Parris, Olefin Bisfunctionalisation
Competing Dihydroxylation
• First turnover of catalyse is AD• Can reduce AD with slow addition of substrate
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Sean Parris, Olefin Bisfunctionalisation
AA – Best Substrates
Cinnamates best using (DHQ)2PHAL (as drawn)
(DHQ)2AQN (regioisomer)
,-unsat’d(DHQ)2PHAL (as drawn)
effect ligand unknown
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Sean Parris, Olefin Bisfunctionalisation
AA – More Substrates
-Styrenes, ,-unsat’d esters & vinyl arenes only work with acetamide & carbamate- Other egs where DHQ vs DHQD give regioisomers in similar ee of opposite stereoinduction!
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Sean Parris, Olefin Bisfunctionalisation
Sharpless Aminohydroxylation – Further Work
,-unsat’d amides & carboxylic acids found to be good substrates for a racemic AH (Angew. 1997, p2751; Angew. 2001 3455) because exist solely in “secondary cycle”
Start to develop a AA using the secondary cycle only which places far more stringent requirements on the ligand, with only partial success: 50-70% ee for AD, 25-60% ee for AA (Angew. 2002, 474)
Muniz et al got around the problem of a racemic AH for acrylamindes by using chiral substrate (Tet. Asymm. 2005, 3492)
Hergenrother et al found could change regioselectivity in AA of styrenes by controlling pH with modest ee (Org. Let. 2003, 281)
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Sean Parris, Olefin Bisfunctionalisation
Other Aminhydroxylations - TA
Tethered Aminohydroxylation (TA)
Donohoe et al, JACS 2002, 12934
• Stereochemistry comes from allylic alcohol• Stereoinduction requires cyclic system
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Sean Parris, Olefin Bisfunctionalisation
Tethered Aminohydroxylation
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Sean Parris, Olefin Bisfunctionalisation
Tethered Aminohydroxylation - Mechanism
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Sean Parris, Olefin Bisfunctionalisation
Diamination to Conjugated Dienes
(1) disfavour 3 (2) favour Nu addn to give diamine (3) amine souce that won’t react with other species
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Sean Parris, Olefin Bisfunctionalisation
Question Time – Predict the Products
NH
NH
O
R R 2 Products
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Sean Parris, Olefin Bisfunctionalisation
Diamination – Initial Results
Conditions are modified Wacker conditions- Regioselectivity of first complexation- Unsymmetric ureas (solubility also a problem)- needs chloride Pd pre-catalyst
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Sean Parris, Olefin Bisfunctionalisation
Question Time – Wacker Oxidation
RPdCl2, CuCl2
H2O, O2R
O
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Sean Parris, Olefin Bisfunctionalisation
Diamination – Further Results
- Benzoquinone (method A) is superior oxidant- best for symmetric dienes
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Sean Parris, Olefin Bisfunctionalisation
Enatioselective Diboronation of Olefins
• Works for terminal & di-substiuted alkene, not tri subst• Works best for trans alkenes • Tolerates protected alcohols
Morken et al, JACS 2003, 8702; JOC 2005 9538
50-98%50-96% ee
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Sean Parris, Olefin Bisfunctionalisation
Enatioselective Diboronation of Olefins
Morken et al, JOC 2005 9538
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Sean Parris, Olefin Bisfunctionalisation
Carbohyroxyltion of Olefins
Morken et al, Org. Lett. 2004, 131
One-pot diboronation-Suzuki cross coupling
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Sean Parris, Olefin Bisfunctionalisation
Diboronation Mechanism
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Sean Parris, Olefin Bisfunctionalisation
Regioselective Aminoacetoxylation
Stahl et al, JACS 2006, 7179
• Racemic addition• Requires adjacent ether in substrate• Interesting IIII reagent oxidises Pd-C bond…
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Sean Parris, Olefin Bisfunctionalisation
Regioselective Aminoacetoxylation
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Sean Parris, Olefin Bisfunctionalisation
Hydroxysulfenation
AcOSR
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Sean Parris, Olefin Bisfunctionalisation
Hydroxysulfenation
• R1 = Ar, alk• R1=R2 = c-hex, Ar • R3 = Ar, Cy• Complete diastereoselectivity• can also replace S-Ar with Si-iPr, SePh & SnBu
Taniguchi, JACS 2006, 7876
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Sean Parris, Olefin Bisfunctionalisation
Hydroxysulfenation
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Sean Parris, Olefin Bisfunctionalisation
Hydroxysulfenation