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ENLIGHTENMENT, RADICAL PATHWAY TOWARDS COMPLEX STRUCTURES FRONTIERS IN CHEMICAL SYNTHESIS: TOWARDS...
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Transcript of ENLIGHTENMENT, RADICAL PATHWAY TOWARDS COMPLEX STRUCTURES FRONTIERS IN CHEMICAL SYNTHESIS: TOWARDS...
![Page 1: ENLIGHTENMENT, RADICAL PATHWAY TOWARDS COMPLEX STRUCTURES FRONTIERS IN CHEMICAL SYNTHESIS: TOWARDS SUSTAINABLE CHEMISTRY SESSION III: ORGANOCATALYSTS AND.](https://reader035.fdocuments.in/reader035/viewer/2022062408/56649e4f5503460f94b465ba/html5/thumbnails/1.jpg)
ENLIGHTENMENT, RADICAL PATHWAY TOWARDS
COMPLEX STRUCTURES
FRONTIERS IN CHEMICAL SYNTHESIS:
TOWARDS SUSTAINABLE CHEMISTRY
SESSION III: ORGANOCATALYSTS AND RADICALS
Jean-Baptiste Gualtierotti
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LAYOUT
- Historical Background
- Methods for the formation of complex structures through total synthesis
• Photo-cycloadditions• Photo-rearrangements• Norrish 1 and 2• Photo-extrusion• Photo-oxidation• Photo-protecting groups
- Summary and questions
2
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PRIMARY RADICALS
3
• Gomberg (U. of Michigan 1900): first who recognized he had stumbled the evidence of a free radical
• 1911 enough evidence for the community to accept their existence
• Giacomo Ciamician, by some called the father of photochemistry, proposed the concept of solar energy as green source to replace societies dependency on coal (1912)
• 1929: Paneth and Hofeditz produced the methyl free radical, CH3
• In 1933, Morris Kharasch and his student, Frank Mayo, invoked a free-radical mechanism and discovered "the peroxide effect”
• Evolved towards plastic, understanding of many processes (ie oxidative stress) and so on
• 1970’s and onwards: truly used in synthesis i.e Barton reaction in steroid synthesis
On the arid lands there will spring up industrial colonies without smoke and without smokestacks; forests of glass tubes will extend over the plains and glass buildings will rise everywhere;
inside of these will take place the photochemical processes that hitherto have been the guarded secret of the plants, but that will have been mastered by human industry which will know how to make them bear even more abundant fruit than nature,
for nature is not in a hurry and mankind is.
Giacomo Ciamician science 36, 385, 1912
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A SINGULAR ENTITY
Atom economy =
Mw light << Standard reagents
E factor = Light waste?
Photochemical reactions lead to a reversal of terminal symmetry relation-ships and reversal of stereospecificity
Woodward-Hoffmann rules
In addition light based chemistry Advantageous over ionic counterparts
• More FG tolerant
• Lesser pH dependence
• Potential cascade reactions
• Can acess congested «areas»
Thermal [1.3] antarafacial sigmatropic shift
Photo [1.3] superafacial sigmatropic shift
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5
Sensitization by energy transfer
Dexter or FRET mechanism
Quantum yield:
Φ
PHOTO-EXCITATION PATHWAYS
Simplified Jablonski diagram:
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EXIPLEX
Complex formed by the stabilizing interactions between ground state molecule and exited state molecule
M + M*: eximerM + N*: exiplex
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TOWARDS COMPLEX STRUCTURES THROUGH RADICALS
Questions
How to control the formation of an intermediate singlet or triplet state?
What reaction media are available for the following reactions?
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2+2 CYCLOADDITIONS
O
O
O
O
hv 70%
O
HOOC
OHO
O
HO
OO
Solanoclepin A
O
O
CO2Et
Et3SiO
hv 100% OO CO2Et
Et3SiO
OO
O
O
O
HHO
H
OH
O O
Ginkgolide B 1
Crimmins, Michael T.; Pace, Jennifer M.; Nantermet, Philippe G.; Kim-Meade, Agnes S.; Thomas, James B.; Watterson, Scott H.; Wagman, Allan S.. J. Am. Chem. Soc. 2000, 122, 8453-8463
Buu Hue, B. T.; Dijkink, J.; Kuiper, S.; van Schaik, S.; van Maarseveen, J. H.; Hiemstra, H Eur. J. Org. Chem. 2006, 127-137.
Most common photochemical reaction, based on excitation to the reactive long lived ππ* triplet (biradical) state
Photosensitivisation oft needed for ISC
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9
Additives to enhance diaselectivity
O
O
O
O
O
O
Major isomer
hv 56% de
Hv additive 70-83% de
R
O
O
O
exiplex intermediate
2+2 CYCLOADDITIONS
Tsutsumi, K.; Nakano, H.; Furutani, A.; Endou, K.; Merpuge, A.; Shintani, T.; Morimoto, T.; Kakiuchi, K., J. Org .Chem 2004, 69 (3), 785-789.
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10
De Mayo varient
David E. Minter and, Christopher D. Winslow J.Org.Chem 2004 69 (5), 1603-1606
N
O
O
O
N
O
Ohv 72%
H
O
H
N
O
H
OH
HO
O
HO
(-)-Lycorine
Enol followed by retro-aldol
2+2 CYCLOADDITIONS
O O OH OO O
R
R1
hv R
R1
OH
O
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Paternó-Büchi varientHetero 2+2 cycloadditon, passing through triplet nπ* or ππ* carbonyl biradical
O
O
O
Ph
O O
O
O
O
Ph
O
O
H
H
hv 99%O
O
OHO
OH
beta-L-apio-L-furanoside
Nehrings, A.; Scharf, H.-D.; Runsink, J., Angew Chem 1985, 97 (10), 882-883.
Boxall, Richard J.; Ferris, Leigh; Grainger, Richard S. Synlett 2004 2379-2381
O
O
hv 55%
O
O
H
O
HO
(+/-)-herbertendiol
2+2 CYCLOADDITIONS
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Paternó-Büchi varient
2+2 CYCLOADDITIONS
Efforts to reach stero-control have been made
O O O O
H
O O
Hhv
+
ee 20-82%
cat. O
R
RR
R
NB
R 1Br3Al
Guo, H.; Herdtweck, E.; Bach, T., Angew. Chem. Int. Ed. 2010, 49 (42), 7782-7785.
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Rarer: photoexcitation dealigns orbitals
Some examples exist: based on photoswitching rather than photoactivation
OOH
HH
OOH
HH
OOH
HH
hv
2:1 regioisomer
91%
O
O
H
H
H
O
O
O
(+/-)-5-epi-10-epi-vibsarin E
Davies, H. M. L.; Loe, Ø.; Stafford, D. G., Org Let 2005, 7 (25), 5561-5563.
4+2 CYCLOADDITIONS
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Additions on aromatic cores leading to the loss of aromaticity
R
R
R
RR
RR
R
hv 2+2
hv 3+2
hv 4+2
+ ortho
meta
para
Intra/inter selectivity:
Regioselective issues: Controllable by tethering and substituant optimisation
Steroselective issues: endo prefered
Facial selectivity: Structure dependent
PHOTOCYCLOADDITIONS
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Endo selectivity
Meta-photocycloaddition
O 4 stepsO
O
1 1
via
Α-cedrene 1
Deicated review: Chappell, D.; Russell, A. T., Organic & Biomolecular Chemistry 2006, 4 (24), 4409-4430.
PHOTOCYCLOADDITIONS
*
hv 253.7nm
endo exiplex
1 1.36
Howbert J.J. Wender P.A., J. Am. Chem. Soc, 1981 103, 688-690
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Unusual intramolecular reaction, protecting group free
O
O
NO
O
Cl
Cl
H
H O
O
N O
OCl
Cl
H
HO
O
NO
O
ClCl
H
H
H
H
H
O
O
NH
H
H
H
H
(+/-) - neostenine
maleimide
hv 63%
280nm
Lainchbury, M. D.; Medley, M. I.; Taylor, P. M.; Hirst, P.; Dohle, W.; Booker-Milburn, K. I., J. Org. Chem. 2008, 73 (17), 6497-6505.
5+2 PHOTOCYCLOADDITIONS
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O
Ohv 350nm
41% dr (C-)) = 11.1
OH
H
tropone(+/-) - dactylol
6 + 2 also exists, although rare in synthesis
Feldman, K. S.; Wu, M. J.; Rotella, D. P., J.Am.Chem.Soc 1990, 112 (23), 8490-8496.
6+2 PHOTOCYCLOADDITIONS
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PHOTO-REARANGEMENTS
X X X X
hvX = CH2 Di-π-methane rearangementX = O Oxa-Di-π-methane rearangement
OOH
OOH
OOH
OOHhv 70%
H
H
H
(+/-)-hirsutine
Singh, V.; Sahu, P. K.; Mobin, S. M., Tetrahedron 2004, 60 (44), 9925-9930
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PHOTO-REARANGEMENTS
HOH
OHN
O
OHR R R
OHR
NO
OHRON
OHR
NHO
hvNOCl
Barton Nitrite ester reaction
5 hydrogen abstraction
NO
N3
ON O
MeO2C
NO
N3
OH
MeO2CN
OH
hvN
O
HN
O
CO2H
N
O
Ph
1-Dethia-3-aza-1-carba-2-oxacephem
Hakimelahi G.H., Li P., Moosavi-Movahedi A., Chamani J., Khodarahmi G. A., Ly T. W., Valiyev F., Leong M. K., Hakimelahi S., Shia K. Chao I. Org. Biomol. Chem., 2003, 1, 2461-2467
Similar to the Hofmann-Löffler-Freytag Reaction, amine instead of alcohol
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PHOTO-FRIES REARANGEMENT
O
O
R AlCl3 >370kAlCl3 r.tOH O
ROHO
R
O
O
ROH O
ROHO
R hv 254nmhv 254nm
Strong lewis acid
Mild alternative
O O
O
O
O O
OH O OH O
CO2Me
hv K2CO3
49%
Capillarol
OO
OO
HO
O
OOO
O
OO
hv 254nm
75%
(-)-kendomycin
Magauer, T.; Martin, H. J.; Mulzer, J., Angew Chem. Int. Ed. 2009, 48 (33), 6032-6036.
«standard» reaction did not work
Through homolitical cleavage of the ester bond
Regioselectivity dependant on substituded positions
Okada K., Suzuki R., Yokota T. Biosci. Biotechnol, Biochem. 1999, 63, 257-260
Standard Fries in general requires unencumbered arenes
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NORRISH-YANG REACTION
R1
OR
R1
OR
R1
OHR
R1
OR
R1
OHR
1
3
1
3
HO
R1
R
R1HO
R
Norrish 2
Yang
O O
O
O
OO
O
O O
O O
O
O
OH
hv
68%
(+/-)-paulownin
AcO
O
OMs AcO
OH
OMs AcOO
AcOO
AcO
O
pterosin B
Wessig, P; Teubner, J Synlett 2006, 1543-1546
Kraus, G. A.; Chen, L., J. Am. Chem. Soc 1990, 112 (9), 3464-3466.
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NORRISH CLEAVAGE
O O O
O
O
hv 300nm
66%
(+)-hop ether
O
O
H
H
OAc
O
H
H
O
H
H
O
OH
OAc
(-)-deacetoxyalcyonin
Molander, G. A.; St. Jean, D. J.; Haas, J., J. Am. Chem. Soc 2004, 126 (6), 1642-1643.
C.-H Lin, Y.-L. Su, H.-M. Tai, Heterocycles 2006, 68, 771-777
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PHOTOEXTRUSION
O
OAcAcO
N
HNO
N3
O
OAcAcO
N
NO
NNN
O
OAcAcO
N
NNO
O
OAcAcO
N
NHHNO
O
hv hv H2O
80%
Cyclic ketone double alpha cleavage
OCO2Me
O OCO2MeCO O CO2Me
O
O
hv 76%
60%
(+/-)-herbertenolide
de > 96%
Tetrazo-option also known
Veerman, M.; Resendiz, M. J. E.; Garcia-Garibay, M. A., Org Lett 2006, 8 (12), 2615-2617.
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PHOTOOXYDATION
O
R O2 hv
methylene blueO
R
O O
O
H
HO
Litseaverticillol A
O
HO
O
OH
O
OH
OH
O
Cladocorane A (+/-)-Toluccanolide C
Photo-oxydation of furans gave several natural products
Singlet oxygen is far more reactive than ground state triplet oxygen
Easy oxidation, sunlight is sufficient.
Vassilikogiannakis, G.; Margaros, I.; Montagnon, T.; Stratakis, M., Chem.–Eur. J. 2005, 11 (20), 5899-5907.
Miyaoka, H.; Yamanishi, M.; Kajiwara, Y.; Yamada, Y., J Org Chem 2003, 68 (9), 3476-3479.
Mace, L. H.; Shanmugham, M. S.; White, J. D.; Drew, M. G. B., Org. Biomol. Chem. 2006, 4 (6), 1020-1031.
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PROTECTING GROUPS
Cleavage by light avoids reagents and is rapid and clean
N
N+
N
NNH
NHO
O
O
NOhv
ent-fumiquinazoline
N
NN
NH
NO2
O
O
HO O-
N
N+HO O-
N
NOH
O
via
Snider, B. B.; Busuyek, M. V., Tetrahedron 2001, 57 (16), 3301-3307.
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PHOTOCHEMICAL MCR
Light as an auxillary for radical chemistry
I
O
O
O
O
O
O
PdIII
OO
O
Pd0
PdIICO
CO
hvMeOH
CO, MeOH, hv, Pd(PPh3)4
NEt3 DMAP
Ryu, I.; Kreimerman, S.; Araki, F.; Nishitani, S.; Oderaotoshi, Y.; Minakata, S.; Komatsu, M., J. Am. Chem. Soc 2002, 124 (15), 3812-3813.
Recent similar work by Corey R. J. Stephenson on light photoredox catalysis
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SUMMARY
Many structures are accessible through photo-induced radical reactions
Oft in greener conditions, even at times in crystal phase
Sensitizers, additives and carefully chosen substituents can induce selectivity on several levels
Questions?