Synlett 2008(18): 2803-2806  
DOI: 10.1055/s-0028-1083540
LETTER
© Georg Thieme Verlag Stuttgart ˙ New York

Malononitrile as Acylanion Equivalent

Sebastian Förster, Olena Tverskoy, Günter Helmchen*
Organisch-Chemisches Institut der Universität Heidelberg, Im Neuenheimer Feld 270, 69120 Heidelberg, Germany
Fax: +49(6221)544205; e-Mail: g.helmchen@oci.uni-heidelberg.de;
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Publikationsverlauf

Received 15 July 2008
Publikationsdatum:
15. Oktober 2008 (online)

Abstract

The oxidation of derivatives of malononitrile with peracid in methanol proceeds with loss of the cyano groups to yield ­methyl esters in high yield. The method was applied to a variety of malononitrile derivatives, some of which were prepared by Pd- or Ir-catalyzed asymmetric allylic substitution.

    References and Notes

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  • 12a

    The ester 4b was treated with PhMgBr to give 1,1-di-phenyl-2-propylbut-3-en-1-ol (4b′). Similarly, 10 was reacted with PhMgBr to produce cyclohex-2-en-1-yl-(diphenyl)methanol (10′), a known compound, see ref. 12b. GC: Chiraldex γ-Trifluoracetyl (G-TA), 30 m × 0.25 mm × 0.125 µm; injector temperature: 200 ˚C, detector temperature: 250 ˚C; 4a (column temperature: 100 ˚C, isothermal), t R (+)-(S)-4a = 24 min, t R (-)-(R)-4a = 25 min; 9 (column temperature: 140 ˚C, isothermal), t R (-)-9 = 12 min, t R (+)-9 = 13 min.
    HPLC: Daicel Chiralcel OD-H, 250 × 4.6 mm, 5 µm, with precolumn 10 × 4 mm, 5 µm; 4b′ [n-hexane-i-PrOH (99:1), flow = 0.5 mL min, 20 ˚C, 210 nm], t R (-)-(S)-4b′ = 15 min, t R (+)-(R)-4b′ = 16 min); 4c [n-hexane-i-PrOH (99.7:0.3), flow = 0.5 mL min, 20 ˚C, 210 nm], t R (+)-(S)-4c = 12 min, t R (-)-(R)-4c = 14 min; Daicel Chiralcel AD-H, 250 × 4.6 mm, 5 µm, with precolumn 10 × 4 mm, 5 µm; 4d [n-hexane-i-PrOH (99.4:0.6), flow = 0.5 mL min, 20 ˚C, 210 nm), t R (-)-(R)-4d = 22 min, t R (+)-(S)-4d = 29 min; 10′ [n-hexane-i-PrOH (98:2), flow = 0.5 mL min, 20 ˚C, 210 nm), t R (+)-10′ = 20 min, t R (-)-10′ = 22 min.

  • 12b Eisch JJ. Merkley JH. Galle JE. J. Org. Chem.  1979,  44:  587 
9

GC: Chiraldex γ-Trifluoracetyl (G-TA), 30 m × 0.25 mm × 0.125 µm; injector temperature: 200 ˚C, detector temperature: 250 ˚C; 2a (column temperature: 140 ˚C, isothermal): t R (-)-(S)-2a = 27 min, t R (+)-(R)-2a = 28 min; 2b (column temperature: 100 ˚C, isothermal), t R (+)-(S)-2b = 25 min, t R (-)-(R)-2b = 26 min.
HPLC: Daicel Chiralcel OD-H, 250 × 4.6 mm, 5 µm, with precolumn 10 × 4 mm, 5 µm; 2c [n-hexane-i-PrOH (99:1), flow = 0.5 mL min, 20 ˚C, 210 nm], t R (-)-(S)-2c = 18 min, t R (+)-(R)-2c = 22 min; 2d (n-hexane-i-PrOH (95:5), 20 ˚C, 220 nm, t R (-)-(S)-2d = 20 min, t R (+)-(R)-2d = 28 min.

11

General Procedure for the Oxidative Degradation Magnesium monoperoxyphthalate hexahydrate (0.75 equiv, 80% technical grade from Sigma Aldrich, used as received) was added in small portions to a suspension of the substrate and M2CO3 (1.1 equiv/1.5 equiv) in MeOH (c 0.15 M) at the given temperature. The mixture was stirred for the given time and was then filtered through a short column of SiO2, which was washed with PE-EtOAc. The solvent was evaporated in vacuo, and the crude product was purified by bulb-to-bulb distillation or recrystallization.