Carbenoids chromium

Castro CE, WC Kray (1966) Carbenoid intermediates from polyhalomethanes and chromium (II). The homogeneous reduction of geminal halides by chromous sulfate. J Am Chem Soc 88 4447-4458. 

Bis(phosphoranimine) ligands, chromium complexes, 5, 359 Bis(pinacolato)diboranes activated alkene additions, 10, 731—732 for alkyl group functionalization, 10, 110 alkyne additions, 10, 728 allene additions, 10, 730 carbenoid additions, 10, 733 diazoalkane additions, 10, 733 imine additions, 10, 733 methylenecyclopropane additions, 10, 733 Bisporphyrins, in organometallic synthesis, 1, 71 Bis(pyrazol-l-yl)borane acetyl complexes, with iron, 6, 88 Bis(pyrazolyl)borates, in platinum(II) complexes, 8, 503 Bispyrazolyl-methane rhodium complex, preparation, 7, 185 Bis(pyrazolyl)methanes, in platinum(II) complexes, 8, 503 Bis(3-pyrazolyl)nickel complexes, preparation, 8, 80-81 Bis(2-pyridyl)amines... 

Further restrictions to the scope of the present article concern certain molecules which can in one or more of their canonical forms be represented as carbenes, e.g. carbon monoxide such stable molecules, which do not normally show carbenoid reactivity, will not be considered. Nor will there be any discussion of so-called transition metal-carbene complexes (see, for example, Fischer and Maasbol, 1964 Mills and Redhouse, 1968 Fischer and Riedel, 1968). Carbenes in these complexes appear to be analogous to carbon monoxide in transition-metal carbonyls. Carbenoid reactivity has been observed only in the case of certain iridium (Mango and Dvoretzky, 1966) and iron complexes (Jolly and Pettit, 1966), but detailed examination of the nature of the actual reactive intermediate, that is to say, whether the complexes react as such or first decompose to give free carbenes, has not yet been reported. A chromium-carbene complex has been suggested as a transient intermediate in the reduction of gfem-dihalides by chromium(II) sulphate because of structural effects on the reaction rate and because of the structure of the reaction products, particularly in the presence of unsaturated compounds (Castro and Kray, 1966). The subject of carbene-metal complexes reappears in Section IIIB. 

As mentioned earlier, the carbene ligand in our complexes shows nucleophilic character with respect to the metal fragment. Therefore, we decided to combine it with an electrophilic carbene. For this purpose we treated pentacarbonyl[methoxy(phenyl)carbene]chromium(0) with phenyl(tri-chloromethyl) mercury (85). Compounds of this kind have been studied intensively by Seyferth et al. (86) and are known as a source of dihalogeno-carbenes. The carbene complex reacted with the carbenoid compound at... 

Whi le these rhod ium and co pper carbenoi ds are unstable, some transition metals such as tungsten and chromium form stable, isolable carbenoids, called metallocartwTOS or Hscher earbenes. 

The reactions are stereospecific. The ratio of stereospecific cyclopropanes formed in the reactions of pentacarbonyl[phenyl(methoxy)carbene] complexes of chromium(O), mo-lybdenum(O) or tungsten(O) with methyl ( )-but-2-enoate, diethyl (Z)-but-2-enedioate and ethoxyethene depends on the type of transition metal, which is consistent with a carbenoid transition state. 

Wiiie these rhodium arid copper carbenoids are unstable, some U ansition metals such as tungsten ahd chromium form stable,, isolahlecarhenoids, catted mr hkrwbeiteiS or Hsotiertearbehes. 

Although the Simmons-Smith reaction has found considerable use in organic synthesis, it is not readily applicable to the formation of highly substituted cyclopropanes, since 1,1 -diiodoalkanes (other than diiodomethane) are not readily available. Substituted zinc carbenoids can be prepared from aryl or a,p-unsaturated aldehydes (or ketones) with zinc metal, and these species can be trapped with an alkene to give substituted cyclopropanes.The addition of chromium carbenes (see Section 1.2.2) to alkenes can be used to effect cyclopropanation to give substituted cyclopropanes. Thus, addition of excess 1-hexene to the chromium carbene 113 gave the cyclopropane 114 as a mixture of diastereomers, with the isomer 114 predominating (4.92). ... 

Gloss and Moss have suggested the term carhenoid to describe intermediates that exhibit reactions quahtatively similar to those of carbenes without necessarily being free divalent carbon species. When carbenes are coordinated with metals they are known as carbenoids that have modified reactivities. lodomethylzinc iodide is often referred to as a carhenoid, because it resembles a carbene in its chemical reactions (Simmons-Smith reaction) (Scheme 5.14). Rhodium and copper carbenoids are unstable whereas some transition metals such as tungsten and chromium form stable and isolable carbenoids called metallocarhenes or Fischer carbenes. Carbenoids are structurally related to singlet carbenes and possess similar reactivity. 

Chromium-carbenoids have been used in the field of natural product synthesis the scope of the annulation reaction has been demonstrated by the synthesis of vitamins E and D (Figure 7) [102] as well as of naph-toquinone antibiotics LXVI (Figure 6) [101]. 

Mioskowski and Flack showed that (Z)-2-chloroalk-2-en-l-ols 42 were obtained in excellent yields from a wide variety of aldehydes by addition of ( )-chromium vinylidene carbenoids 41, generated from trichloroalkanes 40 with CrCl2 in THF at room temperature. The same authors also reported CrCh-mediated condensations of x-chloro-gew-trichloroalkanes with aldehydes to give homolallyic alcohols through a hydride rearrangement followed by a Nozaki-Hiyama allylation. ... 

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