Carbonyl chromium complexes tricarbonylchromium

Arylation of N, N-dimethylhydrazone 77 with ( fl-chlorobenzene)tricarbonylchromium complex lb can be achieved in 64 % yield. The copper lithium azaenolate 78 is trapped with the chromium complex at 70 °C to give a-phenyl ketone 80 as a result of an ipso substitution (Scheme 35) [59]. This represents an easy access to a-aryl carbonyl compounds, some of which may exhibit anti-inflammatory properties. 

It is well known that the tricarbonylchromium-complexed benzylic anions and cations are stabilized due to overlapping between d-orbital of the chromium and p-orbital of the benzylic carbon [1]. Tricarbonylchromium complexes of a-te-tralone and a-indanone having a carbonyl group at the side chain underwent a deprotonation of the exo-benzylic protons by treatment with base to give the stereo-controlled tricyclic compounds (Eqs. 1 and 2) [2]. In these cases, Robinson annulation products were formed in less than 10% yield. Also, base treatment of benzyl ether chromium complex having a chlorine at the side chain 3 gave cyclization product as a diastereomeric mixture (Eq. 3) [3]. 

Planar chiral ortho substituted benzaldehyde chromium complexes are useful compounds for a variety of asymmetric reactions. For example, planar chiral tricarbonylchromium complexes of o-substituted benzaldehydes were reacted with Danishefsky s diene in the presence of Lewis acid at room temperature to afford the chromium-complexed 2,3-dihydro-4-pyranones 25 with high dias-tereoselectivity (Eq. 15) [14]. The high diastereoselectivity of the formation of cycloaddition products 25 is also contributed to an exo-side approach of the diene to anti-oriented carbonyl oxygen of the planar chiral ortho substituted benzaldehyde chromium complexes. When the reaction takes place at lower temperature, aldol-type condensation product 26 was obtained along with the formation of pyranones. The open intermediate 26 was easily transformed to the corresponding cycloaddition product after stirring at room temperature [14]. 

Dioxobenzocyclobutene has also attracted interest for organic synthesis. In particular, much attention has been paid to the addition of carbon nucleophiles to the carbonyl group for transformation to naphthoquinone or indanone derivatives. Double additions of excess vinyllithium to (1,2-dioxobenzocyclo-butene)chromium complex 52 at -78 °C gave the tricarbonylchromium complex of 5,10-dioxobenzocyclooctene 53 in 87% yield without formation of simple diadduct (Eq. 38) [37]. Obviously, the product 53 was formed by a double addition of vinyllithium and subsequent anionic oxy-Cope rearrangement. 

The carbonyl complexes listed in Table V are of two types tricarbonyl-chromium rj6-arene 77-complexes, and pentacarbonyltungsten <7-pyridine complexes, with both complex types having relatively low y. Nonlinearities increase on arene or pyridine 77-system lengthening, and on proceeding from acceptor to donor substituent on the tricarbonylchromium-coordinated arene ring. Relative magnitudes and trends thus mirror those observed with quadratic nonlinearities of these complexes (see Ref. 1)... 

The chromium-templated coupling of alkenyl- or arylcarbene, aUcyne and carbonyl ligands generates arene tricarbonylchromium complexes as primary benzannulation products which - based on their unsymmetric substitution pattern - bear a plane of chirality. Chiral arene complexes are powerful reagents in stereoselective synthesis however, the preparation of pure enantiomers is a lengthy and often tedious procedure, and thus diastereoselective benzannulation appears to be an attractive alternative. In order to lure the chromium fragment to one or the other face of the arene formed, chiral information may be incorporated in the carbene complex or the aUcyne. 

It has been observed that in basic media aromatic hydrocarbons and benzylmethyl ethers bound to -Cr(CO)3 are easily nitrosated at the benzylic position. A review type article discusses the stereoselective manipulation of acetals derived from o-substituted benzaldehyde chromium tricarbonyls. The diastereoselective synthesis of a range of substituted cyclohexadienes has been reported from enandomerically pure (2-phenyl-4,S-dibydroxazole)chromium tiicaibonyl complexes. Aromatic nucleophilic substitution on halaogenoarene tricarbonylchromium complexes gives rise to a series of complexed aniline derivatives. The diastereoselective 1,4-addition of organocuprates to o-substituted-phenyI-(E)-enone chromium carbonyl conq)lexes provides a new method for remote stereocontrol at the 1,3, and S-positimis of the side chains. ... 

An overview of the effect of catalyst in the reaction of arenes with chromium hexacarbrmyl has been published. The reactivity of 17-, 18-, and 19-etectron catkMis generated electrochemically from mesitylene-tungsten tricarbonyl has been examined. The gas phase ion chemistry of a range of arene tricarbonylchromium complexes has been investigated by F.T. mass spectrometry. An improved synthesis of substituted naphthalene chromium carbonyls has appeared. ... 

Fourteen new tricarbonylchromium complexes of benzodiazaboroles, phenyl-boranes and related compounds have been prepared and characterired. In all compounds n.m.r. data indicate that the Cr(CO)8 moiety is bonded to the benzo and phenyl rings. New types of co-ordination compounds of chromium, molybdenum, and tungsten with phosphino-aminoboranes of general formula (COsMPRSBRS, (CO)4M(PRia)aBR , and (CO)3M(PRS)B have been synthesized. Suitably substituted carbonyl compounds of the same metals reportedly react with l-phenyl-4,5-dihydroborepin (35) to yield stable complexes in which the boron atom apparently participates in metal-ligand bonding. "... 

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