Hayashi catalysts

In 1985, Manning and N6th first reported the hydroboration of alkenes catalyzed by Wilkinson s catalystJ Since this pioneering work, the development of transition-metal-catalyzed hydroboration has been investigated extensively. Burgess and Ohlmeyer demonstrated asymmetric catalysis with the use of BINAP and Diop-derived Rh-catalysts. Hayashi et al. later reported improvement of the enantioselectivity for the hydroboration of styrenes using Rh-BINAP complexes (up to 96% ee at -78 Other catalyst systems have also been shown to be effective... 

In 1997, Uozumi and Hayashi found high enantioselective Wacker-type cycUza-tion of o-allylphenols or o-homoaUylphenols by using Pd(II) catalysts coordinated with chiral bis(oxazoline) ligands based on the 1,1 -binaphthyl backbone (Eq. 6.36)... 

Arylation of alkynes via addition of arylboronic acids to alkynes represents an attractive strategy in organic synthesis. The first addition of arylboronic acids to alkynes in aqueous media catalyzed by rhodium was reported by Hayashi et al.89 They found that rhodium catalysts associated with chelating bisphosphine ligands, such as 1,4-Ws(diphenyl-phosphino)butane (dppb) and 1,1 -/ E(diphenylphospliino)fcrroccnc... 

Amides and sulfonamides undergo intramolecular chemistry to form aryl amides and aryl sulfonamides (Equations (17)—(19)) in the presence of palladium catalysts ligated by arylphos-phines.35,89 Initially, complexes of P(furyl)3 and P(o-tol)3 were most effective catalysts, but complexes of Hayashi s MOP and van Leeuwen s DPEphos and xantphos have lately been shown to be more active.90 In the presence of catalysts containing one of these ligand systems, five-, six-, and seven-membered rings were formed from halogenated benzamides or from substrates containing an acetamide, an A-carbobenzyloxy, or a t-butylcarbamate substituent tethered to the aryl halide (Equations (18) and (19)) ... 

Shinohara, C., S. Kawakami, T. Moriga, H. Hayashi, S. Hodoshima, Y. Saito, and S. Sugiyama, Local structure around platinum in Pt/C catalysts employed for liquid-phase dehydrogenation of decalin in the liquid-film state under reactive distillation conditions. Appl. Catal. A, 266(2), 251-255 (2004). 

In 1997, Miyaura and co-workers reported the nonasymmetric version of 1,4-addition of aryl- and alkenylboronic acids to a,/ -unsaturated ketones using rhodium-phosphine complex as the catalyst.97 Later, Hayashi and Miyaura realized the asymmetric 1,4-addition with high catalytic activity and enantioselectivity.98 In the presence of ( y)-BINAP, the reaction of 2-cyclohexenone with 2.5 equiv. of phenylboronic acid gave (A)-3-phenylcyclohexanone with 97% ee (BINAP = 2,2 -bis (diphenylphosphino)-l,l -binaphthyl Scheme 29).99... 

Nitroalkenes are good candidates for the rhodium-catalyzed asymmetric 1,4-addition of organoboronic acids. Hayashi et al. reported that the reaction of 1-nitrocyclohexene with phenylboronic acid in the presence of rhodium/ -BINAP catalyst gave 99% ee of 2-phenyl-1-nitrocyclohexane (Scheme 38).117... 

The development of chiral catalysts for use in enantioselective rhodium-catalyzed hydroborations was pioneered by Burgess9, Suzuki,77 and Hayashi.78 The chiral diphosphine ligands employed in their preliminary investigations 23-26 (Figures 2(a) and 2(b)), had previously been successfully applied in other catalytic asymmetric transformations. 

In 1993, Hayashi and co-workers reported a catalytic asymmetric synthesis of alle-nylboranes 256 by palladium-catalyzed hydroboration of conjugated enynes 253 (Scheme 4.66) [105]. Reaction of but-l-en-3-ynes 253 with catecholborane 254 in the presence of a catalyst, prepared from Pd2(dba)3 CHC13 (1 mol%) and a chiral mono-dentate phosphine ligand (S)-MeO-MOP 255 (1 mol%), gave an allenylborane 256. The ee of 256 was determined by the reaction with benzaldehyde affording the corresponding optically active homopropargyl alcohols 257 with up to 61% ee (syn anti= 1 1—3 1). 

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. 

T. Hayashi, K. Tanaka, and M. Haruta, Selective vapor-phase epoxidation of propylene over Au/Ti02 catalysts in the presence of oxygen and hydrogen, J. Catal. 178(2), 566-575 (1998). 

Y. Kojima, K. Suzuki, K. Fukumoto, M. Sasaki, T. Yamamoto, Y. Kawai, H. Hayashi, Hydrogen generation using sodium borohydride solution and metal catalyst coated on metal oxide , Int. J. Hydrogen Energ. 27 (2002) 1029-1034. 

Addition of Organometallic Reagents to Enones in Aqueous Media Rhodium-catalyzed 1,4-addition of organometallic reagents to a,p-unsaturated compounds was first developed by Miyaura in 1997. Thus, Rh(acac)(CO)2/dppb was found to catalyze the 1,4-addition of aryl- and alkenylboronic acids to several ot,(3-unsaturated ketones in water-containing solvents at 50°C. The reaction conditions were successfully modified for the development of an asymmetric variant of this process by Hayashi and Miyaura in 1998. The important points of modification are (1) the use of Rh(acac)(C2H4)2/(5)-binap as a catalyst and... 

Type B enamine catalysts have been developed more recently. They include the diarylprolinol ethers (developed by the Hayashi and Jprgensen groups, e.g. 47 and its derivatives) [71-75] as well as the MacMillan imidazolidinone catalysts (e.g. 46) [76-78]. They excel in reactions where hydrogen bonding assistance is either not required or is not essential, such as a-halogenation reactions as well as some conjugate addition reactions (Scheme 12). 

The simplest possible aldehyde donor, acetaldehyde, can also be used as the donor Very recently, Hayashi and coworkers discovered how to use acetaldehyde in crossed-aldol reactions - the trick is to use diarylprohnol as the catalyst and to optimize the reaction conditions carefully to prevent oligomerization of acetaldehyde. However, so far the acetaldehyde aldol reactions appear to be limited to aromatic aldehyde acceptors [205],... 

Chen X, Suib SL, Hayashi Y, Matsumoto H (2001) H2O splitting in tubular PACT (Plasma and catalyst integrated technologies) reactors. J Catal 201 198-205... 

Hayashi. Although the applications of hydrogen bonding catalysts in natural product synthesis are still in their infancy, hydrogen bonding has been used many times as a driving force for desired selectivity in total synthesis. 

Alternatively, 138 can be converted to CBZ carbamate 142 using standard conditions (Scheme 4.30). This 5-bromoisoindoline was transformed to stannane 143 in one step with bistributyltin in the presence of a palladium catalyst. The stannane was treated with 136 under Stille conditions to afford coupled product 144. The resulting ester was hydrolyzed with sodium hydroxide, and the CBZ group was removed under hydrogenolysis conditions to deliver garenoxacin (4) (Hayashi et al., 2002). 

Ferrocenyl groups are useful tools for stereoselective syntheses. Hayashi and coworkers have discovered a novel class of ferrocenyl catalysts allowing the kinetic resolution of benzylic zinc derivatives, such as 448 . The racemic mixture of the benzylic zinc reagent... 

The impressive activity achieved by Teles catalyst was improved some years later by the use of CO as an additive [92]. In this study, Hayashi and Tanaka reported a TOF of 15600h 1, at least two orders of magnitude higher than [as-PtCl2(tppts)2], for the hydration of alkynes, providing an alternative synthetic route to the Wacker oxidation. Although several solvents were tested, the best results were obtained with aqueous methanol, and sulfuric acid or HTfO as acidic promoters. Unlike Utimoto s observation, in this case terminal propargylic alcohols partially (17-20%) delivered anti-Markovnikov product, in addition to the Markovnikov species. Some years before, Wakatsuki et al. had already reported the anti-Markovnikov hydration of terminal alkynes catalyzed by ruthenium(II) [93]. 

The gold catalyst has provided some very important achievements in chemistry in general, such as the asymmetric aldol reaction of aldehydes with isocyanoacetates reported by Ito, Sawamura and Hayashi [12,176]. The use of chiral ferrocenylpho-sphine gold (I) complexes allowed them to obtain enantiomerically-pure oxazo-lines. 

The coupling of the racemic allylic acetate 4 with malonate can give either the terminal product 5 or the internal product 6. Tamio Hayashi of Kyoto University reports (Organic Lett. 5 1713, 2003) that using a Rh catalyst in the presence of Cs,CO, and a chiral phosphine leads to a 1 99 ratio in favor of the internal product 6, with outstanding . 

For reviews of chiral transition metal complex catalysts, see Brunner Top. Stereochem. 1988, 18. 129-247, Hayashi Kumada Acc. Chem. Res. 1982, 15, 395-401. 

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