(Cyc1oheptatriene)iron Tricarbonyl - American Chemical Society

Fullerton, California 92634% Department of Chemistry, California State University, Northridge,. California. and Department of Chemistry, University of...
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J . Am. Chem. SOC.1990, 112, 205-215

205

Regio- and Stereocontrolled Functionalization of a Seven-Membered Ring via (Cyc1oheptatriene)iron Tricarbonyl Gregory M. Williams,**la.bDuane E. Rudisill,lbBeverly A. Barnuin,'" Kenneth Hardcastle,lCRichard H. Heyn,lb Christopher J. Kozak,la and Jeffrey W. McMillanlb Contribution from the Department of Chemistry and Biochemistry, California State University, Fullerton, California 92634%Department of Chemistry, California State University, Northridge, California. and Department of Chemistry, University of California, Irvine, California 9271 7. Received April 26, I989

Abstract: Deprotonation of (~ycloheptatriene)Fe(CO)~ gives a deep red nucleophilic anion (C,H,)Fe(CO),(K+), 1. Anion I reacts with acid chlorides to give (7-exo-acyl-C7H7)Fe(cO),complexes, 2, in high yield. The products were characterized by spectroscopic techniques and by a single-crystal X-ray diffraction study on the benzoyl derivative: 2b crystallizes in the monoclinic space group P2,/c, with unit cell constants a = 11.790 (3) A, b = 6.643 (2) A, c = 19.419 (8) A, @ = 99.33 (2)', and Z = 4. Acyl complexes 2 have a propensity to rearrange to the 5- and 6-acyl-substituted derivatives. Anion 1 also reacts with BF3-activatedketones and aldehydes to give the expected 7-exo-alkyl hydroxy compounds, 5, in excellent yield. The acyl complexes 2 can be deprotonated very easily to give new organometallic anions that behave much like the enolates of @,-punsaturated ketones. Alkylation with methyl iodide, allyl bromide, or benzyl bromide gave the 7,7-disubstituted (~ycloheptatriene)Fe(CO)~ compounds; the 7-alkyl-5-acyl isomers are always formed as minor byproducts. In addition to spectroscopic techniques, the alkylation products were characterized by X-ray crystallography. The structure of the 7-7'-methylbenzoyl derivative reveals that alkylation occurs on the top face of the ring, away from the Fe(CO)3 fragment: 6 crystallizes in the orthorhombic space group Pcab with cell constants II = 7.587 (3) A, b = 16.959 (6) A, c = 25.099 (6) A, @ = 90°, and Z = 8. The anions derived by deprotonation of 2 react with acid chlorides and silyl chlorides at the oxygen atom of the dienolate fragment. The resulting heptafulvene complexes exist in solution as a mixture of Z and E isomers about the exocyclic double bond; the Z isomer dominates in each case. The molecules crystallize exclusively in the Z form as indicated by the X-ray structure for [((f-BuMe2Si)O)phenylheptaf~lvene]Fe(CO)~: 8d crystallizes in the monoclinic space group P2,/c with cell constants a = 14.896 (3) A, b = 6.448 ( I ) A, c = 23.679 ( 5 ) A, @ = 92.47 ( 1 ) O , and Z = 4.

Deprotonation of (cy~loheptatriene)Fe(CO)~ provides a species that can be considered as the antiaromatic cycloheptatrienide anion stabilized by a transition-metal fragment (eq I).* This deep red

Scheme I

organometallic anion can be considered in terms of two limiting bonding alternatives: one of which delocalizes the negative charge in the ring as an allylic carbanion and one that places the charge density on the metal center. Molecular orbital calculations suggest a very small preference for the latter,3 and its solid-state structure is also consistent with this f~rmulation.~However, the molecule is highly fluxional, even at -160 0C,5and it is known to act as a mild ambident nucleophile. The (C7H7)Fe(CO); anion, 1, has been known for several years, but studies of its reactivity patterns have, in the main, been restricted to inorganic or organometallic systems (Scheme I). Most notably, anion 1 has been used to prepare a number of heterobimetallic complexes linked by either a metal-metal bond or through the seven-membered ring.6 Many of these compounds

( I ) (a) California State University, Fullerton. (b) University of California, Irvine. (c) California State University, Northridge. (2) (a) Maltz, H.; Kelly, B. A. J . Chem. Soc., Chem. Commun. 1971, 1390-1391. (b) Kerber. R . C.J. Organomer. Chem. 1983,354, 131-142. ( c ) Moll. M.; Behrens, H.; Kellner, B.; Knockel, H.; Wurst], P. 2. Z . Naturforsch.. B: Anorg. Chem., Org. Chem. 1976, 31B. 1019-1020. ( 3 ) Hofmann, P. 2.Naturforsch., B Anorg. Chem.. Org. Chem. 1978, 33B. 25 1-260. (4) Sepp, E.: Purzer, A.; Thiele, G.; Behrens, H. Z. Maturforsch,, B: Anorg. Chem., Org. Chem. 1978, 338, 261-264. ( 5 ) Henderson-Lypkie. K. J.; Reuvers, J. G . A,; Takats, J. Unpublished data. See ref 7 in 6c.

have interesting structural or fluxional properties. Several years ago, 1 was reported to react with alkyl chloroformates to give carboalkoxy derivatives of (cyc1oheptatriene)iron tri~arbonyl.,~ (6) (a) Edelmann, F.; Takats, J. J . Organomer. Chem. 1988,344,351-356. (b) Ball, R. G.; Edelmann, F.; Kiel, G.-Y.;Takats, J.; Drews, R. Organometallics 1986, 5 , 829-839. (c) LiShingMan, L. K. K.; Reuvers, J. G. A,; Takats, J.; Deganello, G. [bid. 1983, 2, 28-39. (d) Airoldi, M.; Deganello, G.; Dia, G.;Saccone, P.; Takats, J. Inorg. Chim. Acra 1980, 41, 171-178. (e) Behrens, H.; Kellner, B.; Knochel, H.; Wurst], P. Z. Z. Naturforsch., B: Anorg. Chem., Org. Chem. 1978,338, 1304-1308. (0 LiShingMan, L. K . K.; Takats, J. J. Organomet. Chem. 1976,117, C104-110. (9) Bennett, M. J . ; Pratt, J. L.; Simpson, K. A.; LiShingMan, L. K. K.; Takats, J. J . Am. Chem. SOC.1976, 98,4810-4817. (h) Deganello, G . ;Boschi, T.; Toniolo, L. J. Organomet. Chem. 1975, 97, C46-48.

0002-7863/90/ 15 12-205$02.50/0 0 1990 American Chemical Society

Williams et al.

206 J . Am. Chem. SOC..Vol. 112, No. 1, 1990 Curiously, the isolated organometallic products of these reactions had the ester functionality at the six position of the ring (see below). The same system was reinvestigated very recently, and similar results were reported.m Apart from the alkyl chloroformate example, there has been no concentrated effort to develop the carbon-carbon bond-forming reactions of (C7H7)Fe(CO)