Dienes, chelating reaction with

Dienes, chelating reaction with metal atoms 5.S.2.5.3 Dienes, conjugated reaction with metal atoms 5.S.2.4.6 [-Dienyl complexes from organoaluminums 5.8.2.11.3 from organoborons 5.8.2.11.1 from organomercurials 5.8.2.11.2 from organotins 5.8.2.11.1... 

Chelating Diene Complexes Reaction with Metal Complexes. 

Dehydrogenation of alkanes 5.8.2.2.1 Diene complexes chelated reaction with nucleophiles 5.8.2.5.2 chelating... 

I. Chelating Diene Complexes Reaction with Metal Complexes,... 

In summary, we have demonstrated that it is possible to extend the scope of Lewis-acid catalysis of Diels-Alder reactions in water, by employing a chelating auxiliary. We envisage that analogues of 4.39 capable of undergoing a Mamrich reaction with 4.50 can be treated with reactive dienes in the presence of a Lewis-acid catalyst in water. 

The second pathway is represented by Eqs. (8)—(11). These reactions involve reduction of the Nin halide to a Ni° complex in a manner similar to the generation of Wilke s bare nickel (37, 38) which can form a C8 bis-77-alkyl nickel (17) in the presence of butadiene [Eq. (9)]. It is reasonable to assume that in the presence of excess alkyaluminum chloride, an exchange reaction [Eq. (10)] can take place between the Cl" on the aluminum and one of the chelating 7r-allyls to form a mono-77-allylic species 18. Complex 18 is functionally the same as 16 under the catalytic reaction condition and should be able to undergo additional reaction with a coordinated ethylene to begin a catalytic cycle similar to Scheme 4 of the Rh system. The result is the formation of a 1,4-diene derivative similar to 13 and the generation of a nickel hydride which then interacts with a butadiene to form the ever-important 7r-crotyl complex [Eq. (11)]. 

In early studies of these reactions, the turnover efficiency was not always high, and stoichiometric amounts of the promoters were often necessary to obtain reasonable chemical yields (Scheme 105) (256). This problem was first solved by using chiral alkoxy Ti(IV) complexes and molecular sieves 4A for reaction between the structurally elaborated a,/3-unsaturated acid derivatives and 1,3-dienes (257). Use of alkylated benzenes as solvents might be helpiul. The A1 complex formed from tri-methylaluminum and a C2 chiral 1,2-bis-sulfonamide has proven to be an extremely efficient catalyst for this type of reaction (258). This cycloaddition is useful for preparing optically active prostaglandin intermediates. Cationic bis(oxazoline)-Fe(III) catalysts that form octahedral chelate complexes with dienophiles promote enantioselective reaction with cyclopentadiene (259). The Mg complexes are equally effective. 

Syn 2-formyl-2-methyl-l,3-dithiane 1-oxide undergoes efficient cycloaddition reaction with Danishefsky s diene with excellent levels of diastereoselectivity in the presence of magnesium bromide at -78 °C (Scheme 9, Table 10). Chelation control models which are similar to those described previously by us, and others,54 were proposed to rationalize the observed stereoselectivity. The proposed model 29 for the syn system is shown below the structure of the major product diastereoi-... 

Both 1,4- and 1,5-dienes form stable complexes with Pd. For most 1,3-dienes, such as 1,3-butadiene, reaction with Pd° compounds leads to 7r-allyl formation. These reactions are described in Section 7. The coordinated double bonds in palladium diene complexes are reactive toward attack by many nucleophiles, and the resulting chelating alkene palladium alkyls are easily isolated. Many useful reactions of dienes were discovered by Jiro Tsuji in the 1960s and 1970s. These have been recently reviewed in a historical memoir. ... 

Grieco et al. have demonstrated that an ethereal solution of LiClO4 is useful for the diastereoselective HDA reaction of Danishefsky s diene 102 with a-amino aldehydes by chelation and non-chelation control (Scheme 10.110) [296]. According to a report by Reetz et al., a catalytic amount of LiClO4 suspended in f J I. Gf, efficiently promotes similar reactions with aldehydes and imines [297]. 

Reactions alkylations, reactions with epoxides and aldehydes, conjugate additions Heterocyclic synthesis with allyl silanes Reactions with Co-stabilised cations An Allyl Dianion The Role of Tin in Anion Formation Halide Exchange with Chelation Indium Allyls Allyl Anions by Deprotonation The synthesis ofall-trans dienes The synthesis ofall-trans retinol... 

In a much more complicated piece of work recently disclosed, two stereospecific aldehyde Diels-Alder reactions have been used in preparation of hikosamine derivative 29, a component of the antibacterial compound hizikimycin (Scheme 4-XIII).45k Diene 25 reacted with furfural to give cw-y-pyrone 26, which was transformed in several steps to aldehyde 27. Condensation of 27 with 25 using magnesium bromide as catalyst afforded only adduct 28, presumably via chelated intermediate 27A. Compound 28 was converted in a series of steps to acetylhikosamine 29. The methodlogy described here allowed total synthesis of this unusual sugar having 10 contiguous chiral centers with complete stereocontrol. 

Nucleophiles reactions with alkene complexes S.8.2.3.4 chelated diene complexes 5.S.2.5.2... 

Chelating Diene Complexes by Direct Reaction with Metal Complexes via Ligand Displacement. 

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