Electron deficient transition metal catalyst

The cycloaddition between norbornadiene (23 in Scheme 1.12) and maleic anhydride was the first example of a /mmo-Diels-Alder reaction [55]. Other venerable examples are reported in Scheme 1.12 [56]. Under thermal conditions, the reaction is generally poorly diastereoselective and occurs in low yield, and therefore several research groups have studied the utility of transition metal catalysts [57]. Tautens and coworkers [57c] investigated the cycloaddition of norbornadiene and some of its monosubstituted derivatives with electron-deficient dienophiles in the presence of nickel-cyclo-octadiene Ni(COD)2 and PPhs. Some results are illustrated in Tables 1.4 and 1.5. 

Suga et al. (197) reported the first stereocontrolled 1,3-dipolar cycloaddition reactions of carbonyl ylides with electron-deficient alkenes using a Lewis acid catalyst. Carbonyl ylides are highly reactive 1,3-dipoles and cannot be isolated. They are mainly generated through transition metal carbenoid intermediates derived in situ from diazo precursors by treatment with a transition metal catalyst. When methyl o-(diazoacetyl)benzoate is treated with A-methylmaleimide at reflux... 

Hydroboration. Although hydroboration seldom requires a catalyst, hydrobora-tion with electron-deficient boron compounds, such as boric esters, may be greatly accelerated by using transition-metal catalysts. In addition, the chemo-, regio- and stereoslectivity of hydroboration could all be affected. Furthemore, catalyzed hydroboration may offer the possibility to carry out chiral hydroboration by the use of catalysts with chiral ligands. Since the hydroboration of alkynes is more facile than that of alkenes the main advantage of the catalytic process for alkynes may be to achieve better selectivities. Hydroboration catalyzed by transition-metal complexes has become the most intensively studied area of the field.599... 

Of interest are the electron-rich, late transition metal catalysts with phosphane ligands rather than the electron-deficient, early transition metal Ziegler-Natta catalysts. 

Likewise, upon CIR of electron-deficient (hetero)aryl halides 11 and (hetero)aryl propargyl alcohols 12, and subsequent addition of amidinium salts 32, 2,4,6-trisubstituted pyrimidines 89 can be obtained in a consecutive three-component reaction in good yields (Scheme 48) [241]. Interestingly, in all cases the aromatic products 89 are found and not the expected dihydropyrimidines, regardless whether the reaction has been performed under an anaerobic or an aerobic atmosphere. Therefore, it can be assumed that the presence of the transition metal catalysts is beneficial for a terminal aromatizing dehydrogenation. 

Catalysts based on high-valent compounds of the early transition series (groups 3-5) and the lanthanides and actinides generally form high polymers these electron-deficient see Electron Deficient Compound) metal complexes are poor n-bases and have little ability to bond either into the a orbital on the /3-C-H bond or into the rx of the bound alkene. The later transition metals (groups 9 10) are far more electron-rich ... 

The thermally more stable alkyl- or arylsubstituted cyclopropenes can undergo this reaction type with the aid of transition metal catalysts under mild conditions. The choice of a suitable catalyst strongly depends on the nature of the olefinic cosubstrate. For electron-deficient alkenes, Ni(cod)2 (where cod = cis-cycloocta-1,5-diene) has been found to be the best catalyst66). Dialkyl maleates, dialkyl fumarates and methyl... 

The first approach has been realized in various ways. The second one only works with the aid of transition metal catalysts, whereas the third one has been realized so far only in the thermal reaction of cyclopropenone acetals with electron-deficient alkenes 81). 

The decomposition of suitably crafted diazoimides 181, in the presence of a transition metal catalyst, affords the metallo-carbenoids 182 that undergo intramolecular cycUzation onto the neighboring amide carbonyl oxygen to form the five-membered ring carbonyl yUdes (isomiinchnones) 183 (Scheme 58). Early examples of inter- and intramolecular 1,3-dipolar cycloaddition of the mesoionic ylides 183 have mainly emanated from the research groups of Ibata [149], Maier [150] and Padwa [151]. These reactive species (isomimchnones) can be trapped by various electron-rich and electron-deficient dipolarophiles [152] to furnish the cycloadducts in high yield. Much work has been reported in this area and for clarity of presentation is described here under various subheadings. 

Reversal in regioselectivity was observed for the reaction of electron deficient alkenes such as perfluoroalkenes 59 on catalytic hydroboration with neutral (e.g., Rh(PPh3)3Cl) or cationic ([Rh(COD) (dppb)]lBFJ-) transition metal catalysts (Scheme 28.15). ... 

In the absence of transition metal catalysts, InBr3 was found by Peppe et al. to catalyze the dimerization of vinylarenes [281]. A variety of arenes, electron deficient to electron rich, was studied. The extent of reaction of the proposed benzylic carbocation, and hence the dominant product, depended on reaction temperature and time (Figure 8.127). 

Electron-deficient as well as electron-rich aryl boronic acids proved to be competent partners in the reaction, but electron-deficient boronic acids required higher temperatures. Boronic acids containing aryl halides (I, Cl) were also competent partners, providing a functional handle for further elaboration. Both primary and secondary amines have been utilised as coupling partners. A limitation of this chemistry is the inability to use nitrogen-based heterocycles due to either protodeboronation or the instability of the electron-poor sulfonyl chloride intermediate. Buchwald and coworkers later found that pyridylzinc reagents could be coupled with 2,4,6-trichlorophenyl chlorosulfate (TCPC) to access pyridine sulfonates without a transition metal catalyst." The pyridine sulfonates were subsequently treated with amines to generate sulfonamides. 

The diazo function in compound 4 can be regarded as a latent carbene. Transition metal catalyzed decomposition of a diazo keto ester, such as 4, could conceivably lead to the formation of an electron-deficient carbene (see intermediate 3) which could then insert into the proximal N-H bond. If successful, this attractive transition metal induced ring closure would accomplish the formation of the targeted carbapenem bicyclic nucleus. Support for this idea came from a model study12 in which the Merck group found that rhodi-um(n) acetate is particularly well suited as a catalyst for the carbe-noid-mediated cyclization of a diazo azetidinone closely related to 4. Indeed, when a solution of intermediate 4 in either benzene or toluene is heated to 80 °C in the presence of a catalytic amount of rhodium(n) acetate (substrate catalyst, ca. 1000 1), the processes... 

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