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Tol-BINAP

A transition structure model was proposed which accounts for the high selectiv-ities obtained for some of the substrates [80]. In the structure shown in Scheme 6.37 the two phosphorus atoms of the Tol-BINAP ligand and the two car-... [Pg.237]

Trimethylsilyldiazomethane reacts under similar conditions with N-tosylimines in the presence of (ft)-Tol-BINAP, with better enantiocontrol, but the process does not live up to the standards expected of modern asymmetric transformations (Scheme 4.28) [34],... [Pg.130]

Phenylation has also been achieved with the diphosphine ligands BINAP and tol-BINAP. [Pg.728]

A recent synthesis of P-D lactone (Scheme 13.51) used an enantioselective catalytic approach. A conjugate addition of a silyl ketene acetal derived from an unsaturated ester gave an unsaturated lactone intermediate. The catalyst is CuF-(S )-tol-BINAP.30 The catalytic cycle for the reaction is shown below. [Pg.1208]

The complex -Tol-BINAP-AgF (/>-Tol-BINAP - 2,2 -bis(di-/)-tolylphosphanyl)-l,l -binapthyl) catalyzes the asymmetric addition of allylic trimethoxysilanes to aldehydes (Equation (7)).7 3 The process can provide various optically active homoallylic alcohols with high enantioselectivity (up to 96% ee) and a remarkable 7 and anti- selectivities are observed for the reaction with crotylsilanes, irrespective of the configuration of the double bond ... [Pg.949]

The PMHS, copper-catalyzed reduction of fi-substituted aq/l-unsaturated ketones to saturated ketones is accomplished in good yield with ee values in the 90 to 95% range when (S)-/ -Tol-BINAP is employed as the chiral ligand.595,596 Higher ee values are achievable with the use of a copper catalyst and (/ )-100 as the chiral ligand (Eq. 351).597... [Pg.108]

The copper-catalyzed chiral reduction of -substituted ,/Tunsaturated lactones with PMHS and (S)-/ -Tol-BINAP in the presence of a hindered alcohol can be carried out in moderate to good yields with moderate ee values.599 The reaction is useful for both butenolides and pentenolides. Inferior results are realized with diphenylsilane as the reducing agent. Excellent results employing PMHS and the DTBM-SEGPHOS ligand are possible (Eq. 354).598... [Pg.109]

The chiral reduction of -substituted a,/3-unsaturated lactams with PMHS in the presence of (S)-/ -Tol-BINAP as the chiral ligand with a copper catalyst results in -substituted lactams in excellent yield and with greater than 90% ee.599 This method has been applied in an efficient enantioselective synthesis of the antidepressant (-)-paroxetine (Eq. 356). [Pg.110]

PMHS (1.1 eq), CuCl/NaOBu-t, (S)-p-Tol-BINAP (10 mol%), MeC6H5, temp then TBAF... [Pg.692]

This reaction has lent itself to the development of its asymmetric version (Scheme 88). The trick here is to remove the choride ligands from the coordination sphere of the platinum-chiral ligand complex. This makes the metal center more electrophilic, thus reactive reactions can be run at lower temperature. Interestingly, the best ligand was found to be the atropisomeric monophosphine (fJ)-Ph-BINEPINE.312 Enantiomeric excess up to 85% was observed. Very recently, enantioselectivity up to 94% ee has been achieved using [(AuCl)2(Tol-BINAP)] as pre-catalyst for the reaction of another enyne.313... [Pg.342]

Catalytic enantioselective dienolate additions to aldehydes were realized by Tol-BINAP-Cu(ll) fluoride complexes as shown by an example in Equation (131). [Pg.475]

Due to the potential problems associated with f3-H elimination, the first examples that were reported involved the intramolecular formation of G-O bonds between tertiary alcohols and aryl bromides using Pd(OAc)2 with 2,2 -bis(di-/>-tolylphosphino)-l,l -binapthyl (tol-BINAP) or bis(diphenylphosphino)ferrocene (dppf) as the ligands (Equation (12)).91 Although the coupling with primary and secondary alcohols was troublesome with this system, the more recent introduction of ligands 23-28 (Figure 3) has ameliorated many of these difficulties (Equation (13)).92... [Pg.654]

More recent work employing diphosphine ligands has focused on both new substrates for hydroboration and also new hydroborating agents. Specifically, Gevorgyan has successfully employed cyclopropenes 56 as substrates, with pinacolboranes 13 as the borane source.20 Impressive enantioselectivities were obtained with a range of diphosphines, for example, with rhodium complexes of NORPHOS (>99% ee), PHANEPHOS (97% ee), BINAP (94% ee), and Tol-BINAP (96% ee), all with near perfect m-selectivity (see Scheme 8). [Pg.851]

Noyori et al. recently used ESI-MS to characterize species present in catalytically active solutions during the hydrogenation of aryl-alkyl ketones using their base-free catalyst precursors trans-[Ru((R)-tol-BINAP)((R, RJ-dpenJfHXf/ -BH ] (tol-BI-NAP = 2,2 -bis(ditolylphosphino) -1, T-binaphthyl dpen = 1,2-diphenylethylenedia-mine) in 2-propanol [9b]. Based upon ESI-MS observations, deuterium-labeling studies, kinetics, NMR observations, and other results, the authors proposed that the cationic dihydrogen complex trans-[Ru((R)-tol-BINAP)((R, R)-dpen)(H)( 2-H2)]+ is an intermediate in hydrogenations carried out in the absence of base. [Pg.367]

See other pages where Tol-BINAP is mentioned: [Pg.573]    [Pg.203]    [Pg.238]    [Pg.376]    [Pg.252]    [Pg.293]    [Pg.231]    [Pg.419]    [Pg.422]    [Pg.825]    [Pg.825]    [Pg.256]    [Pg.101]    [Pg.137]    [Pg.949]    [Pg.295]    [Pg.373]    [Pg.332]    [Pg.492]    [Pg.687]    [Pg.689]    [Pg.689]    [Pg.690]    [Pg.691]    [Pg.692]    [Pg.697]    [Pg.699]    [Pg.701]    [Pg.702]    [Pg.704]    [Pg.704]    [Pg.301]    [Pg.302]    [Pg.475]    [Pg.475]    [Pg.476]   
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See also in sourсe #XX -- [ Pg.304 ]

See also in sourсe #XX -- [ Pg.77 , Pg.267 , Pg.278 ]

See also in sourсe #XX -- [ Pg.446 , Pg.473 ]



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