Nucleophilic epoxidation is the formation of
epoxides from electron-deficient
double bonds through the action of nucleophilic oxidants. Nucleophilic epoxidation methods represent a viable alternative to electrophilic methods, many of which do not epoxidize electron-poor double bonds efficiently.
Although the most commonly used asymmetric epoxidation methods (the Sharpless-Katsuki, and Jacobsen epoxidations) rely on the catalytic reactivity of electrophilic oxidants, nucleophilic oxygen sources substituted with a suitable leaving group can also act as epoxidation reagents. The classic example, the Weitz-Scheffer reaction employs hydrogen peroxide under basic conditions (Z = OH below). Other notable examples have employed
hypochlorites
In chemistry, hypochlorite is an anion with the chemical formula ClO−. It combines with a number of cations to form hypochlorite salts. Common examples include sodium hypochlorite (household bleach) and calcium hypochlorite (a component of ...
(Z = Cl) and chiral peroxides (Z = OR*).
''(1)''
Asymmetric versions of the above reaction have taken advantage of a number of strategies for achieving asymmetric induction. The highest yielding and most enantioselective methods include:
* Use of stoichiometric chiral oxidant
* Use of stoichiometric metal
peroxides
In chemistry, peroxides are a group of compounds with the structure , where R = any element. The group in a peroxide is called the peroxide group or peroxo group. The nomenclature is somewhat variable.
The most common peroxide is hydrogen p ...
substituted with chiral
ligands
In coordination chemistry, a ligand is an ion or molecule (functional group) that binds to a central metal atom to form a coordination complex. The bonding with the metal generally involves formal donation of one or more of the ligand's electro ...
[Enders, D.; Zhu, J. Q.; Raabe, G. ''Angew. Chem. Int. Ed. Engl.'' 1996, ''35'', 1725.]
* Use of stoichiometric chiral base
* Use of
polypeptides
Although the mechanisms of each of these reactions differ somewhat, in each case the chiral catalyst or reagent must be involved in th
enantiodetermining conjugate addition step. ''Cis''-epoxides are difficult to access using nucleophilic epoxidation methods. Nearly all nucleophilic epoxidations of ''cis'' olefins afford ''trans'' epoxides.
Mechanism and Stereochemistry
Prevailing Mechanism
The mechanism of nucleophilic epoxidation begins with conjugate addition of the peroxide (or other O-nucleophilic species) to the
enone. Metal ions or conjugate acids present in solution coordinate both the peroxide oxygen and the enolate oxygen. Attack of the enolate on the peroxide oxygen generates the epoxide product and releases a leaving group.
''(2)''
Because the process is stepwise, the configuration of the carbon-carbon double bond is not necessarily preserved. Both ''cis'' and ''trans'' enones form ''trans'' epoxides under nearly all nucleophilic epoxidation conditions (methods employing lanthanide-BINOL systems are the exception).
Stereoselective Variants
How
stereoselectivity is achieved in asymmetric nucleophilic epoxidations depends on the method employed. Covered here are various methods for the asymmetric nucleophilic epoxidation of electron-poor
olefins
In organic chemistry, an alkene is a hydrocarbon containing a carbon–carbon double bond.
Alkene is often used as synonym of olefin, that is, any hydrocarbon containing one or more double bonds.H. Stephen Stoker (2015): General, Organic, an ...
. See below for a survey of the substrate scope of the reaction.
When chiral, non-racemic peroxides are used, the two transition states of epoxidation leading to enantiomeric products are diastereomeric. Steric interactions between the peroxide, enone, ''and'' templating cation M
+ influence the sense of selectivity observed.
''(3)''
Methods that employ metal peroxides modified by chiral, non-racemic ligands operate by a similar mechanism in which the metal cation plays a templating role. Chiral zinc
alkoxide
In chemistry, an alkoxide is the conjugate base of an alcohol and therefore consists of an organic group bonded to a negatively charged oxygen atom. They are written as , where R is the organic substituent. Alkoxides are strong bases and, whe ...
s under an oxygen atmosphere have been used to epoxidize some classes of enones (see equation (8) below). The evolution of
ethane gas and uptake of
oxygen
Oxygen is the chemical element with the symbol O and atomic number 8. It is a member of the chalcogen group in the periodic table, a highly reactive nonmetal, and an oxidizing agent that readily forms oxides with most elements as wel ...
are evidence for ligand exchange followed by oxidation of the intermediate zinc alkoxide species.
[Enders, D.; Zhu, J. Q.; Kramps, L. ''Liebigs Ann./Recl.'' 1997, 1101.] A catalytic version of this transformation has been achieved using chiral zinc alkylperoxides.
''(4)''
Lithium, magnesium, and calcium alkylperoxides have also been employed as asymmetric nucleophilic epoxidation reagents. Simple tartrate and pseudoephedrine ligands are effective in combination with these metals; however, little detailed information about the precise mechanisms of these systems is known.
In combination with
BINOL ligands and
cumene hydroperoxide, lanthanide alkoxides can be used to epoxidize both ''trans'' and ''cis'' enones with high enantioselectivity. Studies of non-linear effects with these catalyst systems suggest that the active catalyst is oligomeric.
''(5)''
Homopolymers of amino acids (polypeptides) can also be used to effect enantioselective epoxidations in the presence of an enone and a peroxide. Structure-reactivity relationships have not emerged, but enantioselectivities in these reactions are often high, and polypeptides can often be used when other methods fail.
Phase-transfer catalysis
In chemistry, a phase-transfer catalyst or PTC is a catalyst that facilitates the transition of a reactant from one phase into another phase where reaction occurs. Phase-transfer catalysis is a special form of heterogeneous catalysis. Ionic rea ...
of nucleophilic epoxidation is also possible using
cinchona
''Cinchona'' (pronounced or ) is a genus of flowering plants in the family Rubiaceae containing at least 23 species of trees and shrubs. All are native to the Tropical Andes, tropical Andean forests of western South America. A few species are ...
-based alkaloid
catalysts. Phase-transfer methods allow some variability in the oxidant used:
hydroperoxide
Hydroperoxides or peroxols are Chemical compound, compounds containing the hydroperoxide functional group (ROOH). If the R is organic, the compounds are called organic hydroperoxides. Such compounds are a subset of organic peroxides, which have t ...
s,
hydrogen peroxide
Hydrogen peroxide is a chemical compound with the formula . In its pure form, it is a very pale blue liquid that is slightly more viscous than water. It is used as an oxidizer, bleaching agent, and antiseptic, usually as a dilute solution (3%†...
, and
hypochlorite
In chemistry, hypochlorite is an anion with the chemical formula ClO−. It combines with a number of cations to form hypochlorite salts. Common examples include sodium hypochlorite (household bleach) and calcium hypochlorite (a component of ble ...
s have all been used with some success.
[Corey, E. J.; Zhang, F. Y. ''Org. Lett.'' 1999, ''1'', 1287.]
Scope and Limitations
Optimal conditions for enantio-selective nucleophilic epoxidation depend on the substrate employed. Although a variety of substrates may be epoxidized using nucleophilic methods, each particular method tends to have limited substrate scope. This section describes asymmetric nucleophilic epoxidation methods, organizing them according to the constitution and configuration of the unsaturated substrate.
Enones
Dialkyl (''E'')-enones have been most commonly epoxidized using either lanthanide/BINOL systems or a magnesium tartrate catalyst.
''(6)''
For alkyl aryl (''E'')-enones, both polypeptides
[Allen, J. V.; Drauz, K. H.; Flood, R. W.; Roberts, S. M.; Skidmore, J. ''Tetrahedron Lett.'' 1999, ''40'', 5417.] and lanthanide/BINOL catalysts
[Watanabe, S.; Kobayashi, Y.; Arai, T.; Sasai, H.; Bougauchi, M.; Shibasaki, M. ''Tetrahedron Lett.'' 1998, ''39'', 7353.] give good yields and enantioselectivities. The most common polypeptide employed is poly-L-leucine.
''(7)''
Aryl alkyl (''E'')-enones have been epoxidized with high enantioselectivity using stoichiometric zinc peroxide systems.
Polyleucine may be used with these substrates as well;
[ when an existing stereocenter in the substrate biases the sense of selectivity of the epoxidation, polyleucine is able to overcome this bias.
''(8)''
Phase-transfer catalysis has been applied successfully to epoxidations of diaryl (''E'')-enones (chalcones).]
Other Electron-poor Alkenes
Unsaturated esters may be epoxidized using either electrophilic or nucleophilic methods. Lanthanide-mediated epoxidation has been successfully applied to cinnamates
Cinnamic acid is an organic compound with the formula C6H5-CH=CH- COOH. It is a white crystalline compound that is slightly soluble in water, and freely soluble in many organic solvents. Classified as an unsaturated carboxylic acid, it occurs na ...
and β-heteroaryl unsaturated esters. Amides are also epoxidized under lanthanide-mediated conditions.
''(11)''
Epoxidations of other electron-deficient double bonds (substituted by electron-withdrawing groups other than carbonyls) are limited in scope, although a few examples have been reported. The ability of the carbonyl group to coordinate Lewis acidic functionality is critical for most existing methods.
Comparison with Other Methods
The asymmetric Darzens reaction
The Darzens reaction (also known as the Darzens condensation or glycidic ester condensation) is the chemical reaction of a ketone or aldehyde with an α- haloester in the presence of a base to form an α,β-epoxy ester, also called a "glycidic es ...
between aldehydes and (alpha)-haloesters is an effective method for the synthesis of glycidic esters. Chiral auxiliaries, chiral boron enolates, and asymmetric phase transfer catalysis have been used successfully to effect asymmetric induction in the Darzens reaction.
''(12)''
Diastereoselective epoxidations of chiral, non-racemic alkenes suffer from the limitation that removal of the auxiliary without disturbing the epoxide is often difficult. Nonetheless, diastereoselectivity is high in some cases.
''(13)''
Oxidation of epoxy alcohols generated via Sharpless epoxidation
The Sharpless epoxidation reaction is an enantioselective chemical reaction to prepare 2,3-epoxyalcohols from primary and secondary allylic alcohols. The oxidizing agent is ''tert''-butyl hydroperoxide. The method relies on a catalyst formed fro ...
is a third method for the enantioselective synthesis of chiral α,β-epoxy carbonyl compounds.[Baldwin, J. E.; Adlington, R. M.; Godfrey, C. R. A.; Patel, V. K. ''Tetrahedron'' 1993, ''49'', 7837.] Swern and Parikh-Doering conditions are most commonly applied to accomplish these oxidations.
''(14)''
Typical experimental conditions
Generally, nucleophilic epoxidations are carried out under inert atmosphere in anhydrous conditions. For zinc-mediated epoxidations, diethylzinc and ligand are first mixed and oxidized, then the enone is introduced. Lanthanide-mediated epoxidations typically require an additive to stabilize the catalyst; this is most commonly triphenylphosphine oxide or triphenylarsine oxide.
Phase-transfer catalyzed epoxidations may be carried out using one of three possible sets of reaction conditions: (1) sodium hypochlorite at room temperature, (2) freshly prepared 8 M potassium hypochlorite, or (3) trichloroisocyanuric acid
Trichloroisocyanuric acid is an organic compound with the formula (C3Cl3N3O3). It is used as an industrial disinfectant, bleaching agent and a reagent in organic synthesis. This white crystalline powder, which has a strong "chlorine odour," is s ...
in aqueous or non-aqueous conditions.
Among polypeptide-based methods, employing a phase transfer catalyst and triphasic media permits lower catalyst loadings. Biphasic conditions using an organic base in conjunction with urea/H2O2 may also be used.
References
{{DEFAULTSORT:Asymmetric Nucleophilic Epoxidation
Organic reactions