BINAP ligand asymmetric Heck reactions

In the presence of a chiral ligand, asymmetric Heck reactions can be carried out. The axially-chiral bisphosphine ligand (/ )- or (5)-BINAP promotes good to excellent levels of enantioselectivity in intramolecular Heck reactions. For example, insertion of palladium into the aryl iodide 214 followed by cyclization gave the indolinone 215 in high enantiomeric excess, used in a synthesis of physostigmine (1.215). ... 

A short five-step synthesis of a bifuran, namely ( )-2,2 -bis(diphenylphosphino)-3,3 -binaphtho[2,l-I>]furan (BINAPFu) from naphthofuranone via a low-valent titanium-mediated dimerization was reported. The newly developed resolution procedure for phosphines was utilized to provide the optically active bidentate phosphine ligands (BINAPFu), which consistently outperforms BINAP in the asymmetric Heck reaction between 2,3-dihydrofuran and phenyl triflate . Another way in which a benzofuranone can be converted into benzo[7 ]furan is by treatment of the former with 1-BU2AIH at -78°C followed by an acidic work up <00TL5803>. 

A fluorous version of the chiral bis-phosphine BINAP has been developed for asymmetric Heck reactions [5], Several fluorous-derivatized binaphthols and BINAP derivatives have been reported, (Scheme 10.4) [6], The silane spacer group present in one of the ligands was used to maximize the percentage fluorine on the molecule. Even so, the partition coefficient1 between FC-72 (see Chapter 3) and benzene was only 2.85, and not surprisingly, the reuse of the catalyst was poor. 

Intramolecular asymmetric Heck reactions. The usefulness of the As analog of BINAP as a ligand for the cyclization of iodoalkenylcyclohexadienes has been demonstrated. 

The intramolecular asymmetric Heck reaction has featured in the synthesis of complex heterocyclic compounds. Bidentate ligands, such as diphosphines (especially BINAP) and phosphine—oxazolines, have been used as a chiral ligand of the asymmetric Heck reaction. Imbos et al. demonstrated that the mono-dentate phosphoramidite 513 was an effective ligand for the asymmetric Heck reaction of the prochiral cyclohexadienone 511 (Scheme 153).227 The reaction of 511 in the presence of catalytic amounts of Pd-(OAc)2 and the chiral phosphoramidite 513 gave the 4a-methoxy-4a//-benzo[c]chromen-2(6E/)-one 512 in 71% yield with 96% ee. By contrast, the reaction of... 

Compared to very extensive studies on Heck reactions, examples of successful asymmetric Heck reactions (abbreviated to AHR in this section) are rather limited, showing that AHRs are not easy to carry out, and careful tuning of conditions is crucial. Most of the HRs proceed by using monodentate ligands. On the other hand, chiral bidentate ligands are mainly required for AHRs. This may be a reason for the difficulty in achieving efficient AHRs. The ligands most extensively used are BINAP, its derivatives, and phosphinooxazolines [116]. 

Shibasaki (Equation 19.36) and Overman first reported the enantioselective Heck reaction. A few substrate combinations react intermolecularly with high enantiose-lectivity (Equation 19.37),but most enantioselective Heck reactions used in S)mthetic applications have been conducted intramolecularly. The asymmetric Heck reaction in Equation 19.37 has begun to be a test-bed for new chiral ligands. Although most Heck reactions that occur with high enantioselectivity have been conducted with BINAP as ligand, a phosphinooxazoline ligand has been used successfully (vide infra). Overman has applied an intramolecular version of the Heck reaction to form oxindoles (Equation 19.38) in the synthesis of a variety of natural products. ... 

Selectivity between a- and p-vinylation of enol ethers has been investigated again diphosphines and nitrogen-based ligands promote a-products. Cyclic enol ethers also remain popular substrates for asymmetric Heck reactions (40-96% ee). Use of hindered bases and BINAP facilitates these reactions. Similar strategies may be employed using 2-pyrrolines (up to 83% ee) or intramolecular arylations.446 Two examples of stereodirected Heck reactions and a kinetic resolution have also appeared... 

The use of chiral Pd complexes for asymmetric synthesis is another clear-cut case requiring specially designed ligands. For the asymmetric Heck reaction, both (a) mixtures of conventional Pd complexes, such as Pd(OAc)2 and Pd2dba3, and chiral ligands, such as BINAP, and (b) preformed chiral Pd complexes, such as Cl2Pd(BINAP), have been used. 

Asymmetric cyclization using chiral ligands has been studied. After early attempts[142-144], satisfactory optical yields have been obtained. The hexahy-dropyrrolo[2,3-6]indole 176 has been constructed by the intramolecular Heck reaction and hydroaryiation[145]. The asymmetric cyclization of the enamide 174 using (S j-BINAP affords predominantly (98 2) the ( )-enoxysilane stereoisomer of the oxindole product, hydrolysis of which provides the ( l-oxindole aldehyde 175 in 84% yield and 95% ec. and total synthesis of (-)-physostig-mine (176) has been achieved[146]. 

The use of cyclic alkenes as substrates or the preparation of cyclic structures in the Heck reaction allows an asymmetric variation of the Heck reaction. An example of an intermolecular process is the addition of arenes to 1,2-dihydro furan using BINAP as the ligand, reported by Hayashi [23], Since the addition of palladium-aryl occurs in a syn fashion to a cyclic compound, the 13-hydride elimination cannot take place at the carbon that carries the phenyl group just added (carbon 1), and therefore it takes place at the carbon atom at the other side of palladium (carbon 3). The normal Heck products would not be chiral because an alkene is formed at the position where the aryl group is added. A side-reaction that occurs is the isomerisation of the alkene. Figure 13.20 illustrates this, omitting catalyst details and isomerisation products. 

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