Nickel-catalysed reactions cycloaddition

A nickel-catalysed [4-1-2] cycloaddition of formamides with allgmes through double C-H activation as shown in Scheme 14.67 was also carried out in the presence of AlMes, forming dihydropyridones along with a,p-unsaturated amides as side products. The side products were formed via insertion of alkynes into the C(0)-H bond. Use of PtBus as a ligand is crucial for the success of the reaction. If an unsymmetrical internal all ne is used, a mixture of regioisomers of dihydropyridones was obtained. ... 

The nickel-catalysed 2 + 2 + 2-cycloaddition of a 3-methyl-2-pyridyl aldimines with alkynes produced 1,2-dihydropyridine adducts in good yields. A key step in this transformation is the formation of aza-nickelacycle intermediates. The iron-catalysed 2 + 2 + 2-cycloadditions of alkyne nitriles with alkynes, in the presence of pyridyl bisimine ligands (95), formed substituted pyridines in good yields. The nickel-catalysed 2 + 2 + 2-cycloadditions of diynes and cyanamides have been investigated. The reactions have been shown to be regioselective, and cycloadducts are produced in good to excellent yields. ... 

In the last decade, several excellent results were also published in the area of enantioselective nickel-catalysed Diels-Alder cycloadditions. Among them, the reactions of cyclopentadiene with 3-alkenoyloxazolidin-2-ones induced by (i )-BINIM-2QN provided cycloadducts in up to >99% yield, >98% de, and 96% ee. Another excellent result was achieved by using a chiral iV,iV -oxide-derived nickel catalyst in Diels-Alder cycloadditions of 3-vinylindoles with methyleneindolinones for the construction of chiral spiro[carbazole-oxindoles] in up to 97% yield, >98% de, and 98% ee. Moreover, the use of the chiral DBFOX-Ph ligand has allowed an inverse-electron-demand Diels-Alder reaction of a range of Af-sulfonyl-l-azadienes with vinyl ethers to be achieved, providing highly functionalised piperidines in up to 75% yield, 96% de, and 92% ee. 

Earlier, Kurahashi and Matsubara described regio- and enantioselective nickel-catalysed decarbonylative formal cycloadditions of phthalic anhydrides with allenes to give in a single step the corresponding chiral 5-lac-tones. The process represented an unprecedented insertion reaction of a carbon-carbon double bond into a carbon-oxygen bond. It was performed in the presence of a chiral nickel catalyst generated in situ from Ni(cod)2 and (5,5)-i-Pr-FOXAP in pyridine at reflux. The chiral 5-lactones were achieved in both moderate to good yields (64-73%) and with enantioselectivities of 59-81% ee, as shown in Scheme 4.16. Better yields (73-90%) and enantioselectivities... 

A catalytic asymmetric cycloaddition reaction between norbomadiene and methylenecyclopropane can also be achieved in the presence of a [Ni(cod)2]-(—)-benzylmethylphenylphosphine catalyst to give the cycloadduct (72) in an optically active form. This reaction may proceed via a metallocyclopentane intermediate. The reactions of methylenecyclopropane with [Ni(cod)2l-phosphine systems do not appear to involve cleavage of the three-membered ring. However, the bis(acrylonitrile)nickel-catalysed cycloaddition reaction of methylenecyclopropane with methyl acrylate, which yields 3-methoxy-carbonylmethylenecyclopentane (73), does involve C—C bond cleavage. Reaction with the deuterium-substituted compound CHD=CDC02Me gives the cyclopentane derivative (74). An intermediate of the type (75) may be involved in this reaction. 

The enantioselective intramolecular formal 2+4-cycloaddition of acrylates and a, -unsaturated imines (99) catalysed by chiral phosphines (100), derived from amino acids, produced A-heterocycles (101) (Scheme 31). Chiral dirhodium(II) carboxamidates (102) catalysed the hetero-Diels-Alder reactions between 2-aza-3-silyloxy-l,3-butadienes and aldehydes to yield all cw-substituted l,3-oxazinan-4-ones in high yields and high enantioselectivity (98% ee)P The nickel-catalysed 4 + 2-cycloaddition of a, -unsaturated oximes with alkynes yielded 2,3,4,6-tetrasubstituted pyridine derivatives. The reaction of isoquinoline, an activated alkyne, and 4-oxo-4//-l-benzopyran-3-carboxaldehyde (103), in ionic solvents, produced 9a//,15//-benzo[a][l]benzopyrano[2,3-/t]quinolizine derivatives (105) via the zwitterion (104) selectively and in good yields (Scheme 32).The Diels-Alder cycloaddition of ethyl 3-(tetrazol-5-yl)-l,2-diaza-l,3-butadiene-l-carboxylates with -rich heterocycles, nucleophilic olefins, and cumulenes formed 3-tetrazolyl-l,4,5,6-tetrahydropyridazines regioselectively. The silver-catalysed formal inverse-electron-demand Diels-Alder... 

The [2-I-2-I-2] cycloaddition reaction of diynes 40 and carbon dioxide 41 were successfully catalysed by a NHC-nickel (Scheme 5.12) [15]. The NHC-Ni complex was prepared in situ from [NiCCOD) ] and two equivalents of carbene. Pyrones 42 were obtained in excellent yields at atmospheric pressure of CO and mild reaction conditions. 

Pyridine compounds 45 can also be produced by the NHC-Ni catalysed cycloaddition between nitriles 43 and diynes 44 (Scheme 5.13) [16]. The SIPr carbene was found to be the best ligand for the nickel complex in this reaction. The reaction required mild reaction conditions and low catalyst loadings, as in the case of cycloaddition of carbon dioxide. In addition to tethered aUcynes (i.e. diynes), pyridines were prepared from a 3-component coupling reaction with 43 and 3-hexyne 23 (Scheme 5.13). The reaction of diynes 44 and nitriles 43 was also catalysed by a combination of [Ni(COD)J, NHC salts and "BuLi, which generates the NHC-Ni catalyst in situ. The pyridines 45 were obtained with comparable... 

An important achievement is the synthesis of optically active fusicoccane, in which the key reaction is cyclization of the bis aldehyde (69). 118 Ring closure of the cobalt complex propargyl derivative (70), involving reaction via a cobalt stabilized carbocation gives access to eight-membered rings117 which are also the product of the nickel(0) catalysed [4+4]cycloaddition of the tetraene (71).118... 

Carbonylative cycloaddition of allyl bromides and acetylenes in methanol in the presence of nickel tetracarbonyl results in the formation of cyclopentenones. For instance, 3-bromocyclopentene and methyl but-2-ynoate afford the diester 493, the halogen atom being replaced by the methoxycarbonyl group. Nickel tetracarbonyl also catalyses the reaction of l-(bromomethyl) cycloalkenes 494 of ring size 5-8 with methyl but-2-ynoate in methanol to yield the spiro-compounds 495 (equation 54). ... 

The nickel/dimethylaluminium chloride-catalysed 3 -I- 2-cycloaddition reactions between cyclopropyl ketones and alkynes produced cyclopentene cycloadducts. 

The nickel-iminophosphine-catalysed 4- -2-cycloaddition of enones with allenes formed highly substituted dihydropyrans. The enantioselective amine-catalysed 4-I-2-cycloaddition of allenoates with oxo-dienes produced polysubstituted dihydropyrans in high yields and with high enantioselectivities. Novel enam-ine/metal Lewis acid bifunctional catalysis has been used in the asymmetric inverse-electron-demand hetero-Diels—Alder reactions of cyclic ketones with Q ,j9-unsaturated a-ketoesters. The 4- -2-cycloaddition of acylketenes (80) with 2-unsubstituted and 2-monosubstituted 3-aryl-2//-azirines (81) produced 1 1 (82) or 2 1 (83) adducts, being derivatives of 5-oxa-l-azabicyclo[4.1.0]hept-3-ene or 5,7-dioxa-l-azabicyclo[4.4.1]undeca-3,8-diene. The formation of the monoadducts proceeds via a stepwise non-pericyclic mechanism (Scheme 25). A-heterocyclic carbene-catalysed 4- -2-cycloaddition of ketenes with 1-azadienes yielded optically active 3,4-dihydropyrimidin-2-ones (93% ee) ... 

---