Michael reaction

The Michael reaction or Michael addition is the nucleophilic addition of a carbanion or another nucleophile[1][2][3] to an alpha, beta unsaturated carbonyl compound. It belongs to the larger class of conjugate additions. This is one of the most useful methods for the mild formation of C-C bonds.[4] Many asymmetric variants exist.[5][6]

Michael Reaction general mechanism

In this scheme the R and R' substituents on the nucleophile (a Michael donor) are electron-withdrawing groups such as acyl and cyano making the methylene hydrogen acidic forming the carbanion on reaction with base B:. The substituent on the activated alkene, also called a Michael acceptor, is usually a ketone making it an enone, but it can also be a nitro group.



As originally defined by Arthur Michael,[7][8] the reaction is the addition of an enolate of a ketone or aldehyde to an α,β-unsaturated carbonyl compound at the β carbon. A newer definition, proposed by Kohler,[9] is the 1,4-addition of a doubly stabilized carbon nucleophile to an α,β-unsaturated carbonyl compound. Some examples of nucleophiles include beta-ketoesters, malonates, and beta-cyanoesters. The resulting product contains a highly useful 1,5-dioxygenated pattern.

Classical examples of the Michael reaction are the reaction between diethyl malonate (Michael donor) and diethyl fumarate (Michael acceptor),[10] that of mesityl oxide and diethyl malonate,[11] that of diethyl malonate and methyl crotonate,[12] that of 2-nitropropane and methyl acrylate,[13] that of ethyl phenylcyanoacetate and acrylonitrile[14] and that of nitropropane and methyl vinyl ketone.[15]

The Michael addition is an important atom-economical method for diastereoselective and enantioselective C-C bond formation. A classical tandem sequence of Michael and aldol additions is the Robinson annulation.


The reaction mechanism is 1 (with R an alkoxy residue) as the nucleophile [4]:

Michael reaction mechanism

Deprotonation of 1 by base leads to carbanion 2 stabilized by its electron-withdrawing groups. Structures 2a to 2c are three resonance structures that can be drawn for this species, two of which have enolate ions. This nucleophile reacts with the electrophilic alkene 3 to form 4 in a conjugate addition reaction. Proton abstraction from protonated base (or solvent) by the enolate 4 to 5 is the final step.

The course of the reaction is dominated by orbital, rather than electrostatic, considerations. The HOMO of stabilized enolates has a large coefficient on the central carbon atom while the LUMO of many alpha, beta unsaturated carbonyl compounds has a large coefficient on the beta carbon. Thus, both reactants can be considered soft. These polarized frontier orbitals are of similar energy, and react efficiently to form a new carbon-carbon bond.

Like the aldol addition, the Michael reaction may proceed via an enol, silyl enol ether in the Mukaiyama-Michael addition, or more usually, enolate nucleophile. In the latter case, the stabilized carbonyl compound is deprotonated with a strong base (hard enolization) or with a Lewis acid and a weak base (soft enolization). The resulting enolate attacks the activated olefin with 1,4-regioselectivity, forming a carbon-carbon bond. This also transfers the enolate to the electrophile. Since the electrophile is much less acidic than the nucleophile, rapid proton transfer usually transfers the enolate back to the nucleophile if the product is enolizable; however, one may take advantage of the new locus of nucleophilicity if a suitable electrophile is pendant. Depending on the relative acidities of the nucleophile and product, the reaction may be catalytic in base. In most cases, the reaction is irreversible at low temperature, due to least-motion arguments.

Asymmetric Michael reaction

Recent research has focused on expanding the scope of asymmetric Michael additions. The most common methods involve chiral phase transfer catalysis, involving chiral quaternary ammonium salts derived from the Cinchona alkaloids, and organocatalysis, which uses enamine or iminium activation with chiral secondary amines, usually derived from proline.

In the reaction between cyclohexanone and nitrostyrene sketched below, the base proline is derivatized and works in conjunction with a protic acid such as p-toluenesulfonic acid:[16]

Michael reaction asymmetric

Syn addition is favored with 99% ee. In the transition state believed to be responsible for this selectivity, the enamine (formed between the proline nitrogen and the cycloketone) and nitrostyrene are co-facial with the nitro group hydrogen bonded to the protonated amine in the proline side group.

Asymmetric Michael Transition State

A well-known Michael reaction is the synthesis of warfarin from 4-hydroxycoumarin and benzylideneacetone first reported by Link in 1944 [17]:

Warfarin synthesis

Several asymmetric versions of this reaction exist using chiral catalysts.[18][19][20][21][22][23]

Mukaiyama-Michael Addition

In the Mukaiyama-Michael Addition the nucleophile is an silyl ether and the catalyst usually titanium tetrachloride:[24][25]

Mukaiyama-Michael addition


The research done by Arthur Michael in 1887 was prompted by an 1884 publication by Conrad & Kuthzeit on the reaction of diethyl 2,3-dibromopropionate with diethyl sodiomalonate forming a cyclopropane derivative [26] (now recognized as involving two successive substitution reactions).

Michael reaction Conrad Guthzeit comparison.svg

Michael was able to obtain the same product by replacing the propionate by 2-bromacrylic acid ethylester and realized that this reaction could only work by assuming an addition reaction to the double bond of the acrylic acid. He then confirmed this assumption by reacting diethyl malonate and the ethyl ester of cinnamic acid forming the very first Michael adduct:[27]

The Original 1887 Michael reaction

In the same year Rainer Ludwig Claisen claimed priority for the invention.[28] He and T. Komnenos had observed addition products to double bonds as side-products earlier in 1883 while investigating condensation reactions of malonic acid with aldehydes.[29] However, according to biographer Takashi Tokoroyama this claim is without merit.


  1. ^ Little, R.; Masjedizadeh, M.; Wallquist, O.; Mcloughlin, J. Org. React. 1995, 47, 315. (doi: 10.1002/0471264180.or047.02)
  2. ^ Mather, B. .; Viswanathan, K. .; Miller, K. .; Long, T. . (2006). "Michael addition reactions in macromolecular design for emerging technologies". Progress in Polymer Science 31 (5): 487–531. doi:10.1016/j.progpolymsci.2006.03.001.  edit
  3. ^ Mather 2006 reprint
  4. ^ a b Michael Addition | PharmaXChange.info
  5. ^ Ian Hunt. "Chapter 18: Enols and Enolates — The Michael Addition reaction". University of Calgary. http://www.chem.ucalgary.ca/courses/351/Carey5th/Ch18/ch18-4-3.html. 
  6. ^ Clayden et al., Organic Chemistry
  7. ^ Arthur Michael (1887). "Ueber die Addition von Natriumacetessig- und Natriummalonsäureäthern zu den Aethern ungesättigter Säuren". Journal für Praktische Chemie 35 (1): 349–356. doi:10.1002/prac.18870350136. http://gallica.bnf.fr/ark:/12148/bpt6k907989/f356.chemindefer. 
  8. ^ Arthur Michael (1894). "Ueber die Addition von Natriumacetessig- und Natriummalonsäureäther zu den Aethern ungesättigter Säuren". Journal für Praktische Chemie 49 (1): 20–29. doi:10.1002/prac.18940490103. http://gallica.bnf.fr/ark:/12148/bpt6k90814q/f29.table. 
  9. ^ Kohler. (J. Am. Chem. Soc., 1907, 37, 385; ibid., 1935, 57, 1316.
  10. ^ H. T. Clarke and T. F. Murray (1941), "1,1,2,3-Propanetetracarboxylic acid, tetraethyl ester", Org. Synth., http://www.orgsyn.org/orgsyn/orgsyn/prepContent.asp?prep=cv1p0272 ; Coll. Vol. 1: 272 
  11. ^ R. L. Shriner and H. R. Todd (1943), "1,3-Cyclohexanedione, 5,5-dimethyl-", Org. Synth., http://www.orgsyn.org/orgsyn/orgsyn/prepContent.asp?prep=cv2p0200 ; Coll. Vol. 2: 200 
  12. ^ James Cason (1963), "β-Methylglutaric anhydride", Org. Synth., http://www.orgsyn.org/orgsyn/orgsyn/prepContent.asp?prep=cv4p0630 ; Coll. Vol. 4: 630 
  13. ^ R. B. Moffett (1963), "Methyl γ-Methyl-γ-nitrovalerate", Org. Synth., http://www.orgsyn.org/orgsyn/orgsyn/prepContent.asp?prep=cv4p0652 ; Coll. Vol. 4: 652 
  14. ^ E. C. Horning and A. F. Finelli (1963), "α-Phenyl-α-carbethoxyglutaronitrile", Org. Synth., http://www.orgsyn.org/orgsyn/orgsyn/prepContent.asp?prep=cv4p0776 ; Coll. Vol. 4: 776 
  15. ^ "Conversion of Nitro to Carbonyl by Ozonolysis of Nitronates: 2,5-Heptanedione", Org. Synth., 1988, http://www.orgsyn.org/orgsyn/orgsyn/prepContent.asp?prep=cv6p0648 ; Coll. Vol. 6: 648 
  16. ^ Sunil V. Pansare and Keyur Pandya (2006). "Simple Diamine- and Triamine-Protonic Acid Catalysts for the Enantioselective Michael Addition of Cyclic Ketones to Nitroalkenes". J. Am. Chem. Soc. 128 (30): 9624–9625. doi:10.1021/ja062701n. PMID 16866504. 
  17. ^ Ikawa, M.; Stahmann, M. A.; Link, K. P. (1944). "Studies on 4-Hydroxycoumarins. V. The Condensation of α,β-Unsaturated Ketones with 4-Hydroxycoumarin". Journal of the American Chemical Society 66 (6): 902. doi:10.1021/ja01234a019.  edit
  18. ^ Halland, N.; Hansen, T.; Jørgensen, K. (2003). "Organocatalytic asymmetric Michael reaction of cyclic 1,3-dicarbonyl compounds and alpha,beta-unsaturated ketones--a highly atom-economic catalytic one-step formation of optically active warfarin anticoagulant". Angewandte Chemie (International ed. in English) 42 (40): 4955–4957. doi:10.1002/anie.200352136. PMID 14579449.  edit
  19. ^ Kim, H.; Yen, C.; Preston, P.; Chin, J. (2006). "Substrate-directed stereoselectivity in vicinal diamine-catalyzed synthesis of warfarin". Organic letters 8 (23): 5239–5242. doi:10.1021/ol062000v. PMID 17078687.  edit
  20. ^ Xie, J.; Yue, L.; Chen, W.; Du, W.; Zhu, J.; Deng, J.; Chen, Y. (2007). "Highly enantioselective michael addition of cyclic 1,3-dicarbonyl compounds to alpha,beta-unsaturated ketones". Organic letters 9 (3): 413–415. doi:10.1021/ol062718a. PMID 17249775.  edit
  21. ^ Kristensen, T. E.; Vestli, K.; Hansen, F. K.; Hansen, T. (2009). "New Phenylglycine-Derived Primary Amine Organocatalysts for the Preparation of Optically Active Warfarin". European Journal of Organic Chemistry 2009 (30): 5185. doi:10.1002/ejoc.200900664.  edit
  22. ^ Dong, Z.; Wang, L.; Chen, X.; Liu, X.; Lin, L.; Feng, X. (2009). "Organocatalytic Enantioselective Michael Addition of 4-Hydroxycoumarin to α,β-Unsaturated Ketones: A Simple Synthesis of Warfarin". European Journal of Organic Chemistry 2009 (30): 5192. doi:10.1002/ejoc.200900831.  edit
  23. ^ Wong, T. C.; Sultana, C. M.; Vosburg, D. A. (2010). "A Green, Enantioselective Synthesis of Warfarin for the Undergraduate Organic Laboratory". Journal of Chemical Education 87 (2): 194. Bibcode 2010JChEd..87..194W. doi:10.1021/ed800040m.  edit
  24. ^ Mukaiyama, T. (1977). "Titanium Tetrachloride in Organic Synthesis [New synthetic methods (21)]". Angew. Chem., Int. Ed. Engl. 16 (12): 817–826. doi:10.1002/anie.197708171. 
  25. ^ Alex R. Lippert, Juthanat Kaeobamrung, and Jeffrey W. Bode (2006). "Synthesis of Oligosubstituted Bullvalones: Shapeshifting Molecules Under Basic Conditions". J. Am. Chem. Soc. 128 (46): 14738–14739. doi:10.1021/ja063900. PMID 17105247. 
  26. ^ doi:10.1002/cber.188401701314
  27. ^ Tokoroyama, T. (2010). "Discovery of the Michael Reaction". European Journal of Organic Chemistry 2010 (10): NA–. doi:10.1002/ejoc.200901130.  edit
  28. ^ Claisen, L. (1886). "Bemerkung �ber die Addition von Aethylmalonat an K�rper mit doppelter Kohlenstoffbindung". Journal f�r Praktische Chemie 35 (1): 413–415. doi:10.1002/prac.18870350144.  edit
  29. ^ Komnenos, T. (1883). "Ueber die Einwirkung von Fettaldehyden auf Malonsäure und Aethylmalonat". Justus Liebig's Annalen der Chemie 218 (2): 145–167. doi:10.1002/jlac.18832180204.  edit

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