Transmetalation development

Asymmetric versions of this transformation were also developed by using chiral imidazolium pro-ligands as NHC precursors, or silver transmetallation methodology with chiral NHC ligands (Fig. 2.23) [106]. Imidazolium salts with chiral A-substituents (132) or imidazolidinium salts with chirality at the backbone of the heterocycle (133) gave quantitative conversions at -78°C with good ee (58% and 70% respectively). 

Subsequently, an in situ Pd(OAc)j-imidazolium salt mixture, developed by Nolan and Grasa, has demonstrated its efficiency for the coupling of aryl bromides and even chlorides with aryl and vinylstannanes. This improved reactivity is due to the TBAF additive, whereby F anions coordinate to Sn forming hypervalent fluorostannate anions that are more reactive towards transmetallation to Pd [121] (Scheme 6.37). 

The key to the success of the synthesis was the development of a novel method for enantioselective formation of a-arylpyrrolidines. In this method, (-)-sparteine-mediated, enantioselective lithiation of N-Boc-pyrrolidine 19 was followed by an in situ transmetallation to zinc and Pd-catalyzed coupling reaction with aryl bromide 3, which afforded 2-arylpyrrolidine in 63% isolated yield and 92% ee. Notably, the acidic aniline NH2 group was tolerated under the coupling reaction conditions. 

An enantioselective variant of the diene cydization reaction has been developed by application of chiral zirconocene derivatives, such as Brintzinger s catalyst (12) [10]. Mori and co-workers demonstrated that substituted dial-lylbenzylamine 25 could be cyclized to pyrrolidines 26 and 27 in a 2 1 ratio using chiral complex 12 in up to 79% yield with up to 95% ee (Eq. 4) [ 17,18]. This reaction was similarly applied to 2-substituted 1,6-dienes, which provided the analogous cyclopentane derivatives in up to 99% ee with similar diastereoselectivities [19]. When cyclic, internal olefins were used, spirocyclic compounds were isolated. The enantioselection in these reactions is thought to derive from either the ate or the transmetallation step. The stereoselectivity of this reaction has been extended to the selective reaction of enantiotopic olefin compounds to form bicyclic products such as 28, in 24% yield and 59% ee after deprotection (Eq. 5) [20]. 

NLO materials (16 and 17) (Fig. 13) have been obtained from polyurethanes by the incorporation of sidechains with boron chromophores.37 The dihydroxy ligand of an azobenzene ligand containing a dimesityl boron acceptor was reacted in a polycondensation fashion with the diisocyanate groups of the polyurethanes to yield the desired polymers. Halogen displacement and transmetallation reactions have been utilized in the development of extended ir-conjugated systems of tri-9-anthrylborane with dendritic structures.38 In one (18) (Fig. 14) of the novel compounds, three identical... 

Inspired by the well-established nickel-catalyzed co-oligomerization of 1,3-dienes with CO2, which proceeds via bis-TT-allyl intermediate, Mori has developed a powerful intramolecular version of this process (Scheme 103). After insertion of C02 into the bis-vr-allyl complex, a transmetallation with an organozinc reagent takes place to generate the Ni(0) catalyst. Highly functionalized carbo- and heterocyclic compounds with complete stereocontrol can372 be synthesized by this method. 

Vinylsilane to copper transmetallation has entered the literature,93 93a,93b and a system suitable for catalytic asymmetric addition of vinylsilanes to aldehydes was developed (Scheme 24).94 A copper(l) fluoride or alkoxide is necessary to initiate transmetallation, and the work employs a copper(ll) fluoride salt as a pre-catalyst, presumably reduced in situ by excess phosphine ligand. The use of a bis-phosphine was found crucial for reactivity of the vinylcopper species, which ordinarily would not be regarded as good nucleophiles for addition to aldehydes. The highly tailored 5,5 -bis(di(3,5-di-tert-butyl-4-methoxyphenyl)phosphino-4,4 -bis(benzodioxolyl) (DTBM-SEGPHOS) (see Scheme 24) was found to provide the best results, and the use of alkoxysilanes is required. Functional group tolerance has not been adequately addressed, but the method does appear encouraging as a way to activate vinylsilanes for use as nucleophiles. 

More intricate and potentially more attractive are catalytic transmetallation processes involving Zr, which may be classified into three categories shown as Classes 3—5 in Scheme 1.21. This area was mainly initiated and developed by Negishi in the 1970s. The initial discovery of the Ni-catalyzed cross-coupling [10] was soon followed by that of the Pd-cat-... 

In the Zr-catalyzed cyclic carbometallation discussed above, a tandem process consisting of (i) transmetallation and (ii) P-H abstraction provides the missing link in the catalytic cycle. In a series of recent examples reported by Takahashi [206—208] and Hoveyda [209—214], the missing link has been provided by a process consisting of (i) [5-elimination or deheterometallation (Pattern 10), (ii) transmetallation, and (iii) P-H abstraction (Scheme 1.62). Some of these reactions have been developed into enantioselective C—C bond-forming processes, as discussed below. 

The aforementioned dienyl dicopper derivatives show the characteristic reactivity of orga-nocopper compounds. However, one limitation to the use of copper is that an electron-withdrawing group is usually required for reaction with alkynes. In order to develop an insertion protocol for alkynes bearing electron-donating groups, transmetalation of zirco-nacyclopentadienes to nickel was investigated. 

When 2,3,4,5-tetraphenylzirconacyclopentadiene was treated with NiCl2(dppe) under reflux, the 2,3,4,5-tetraphenylnickelacyclopentadiene-dppe complex 36 was obtained as a red solid in 78% isolated yield, along with Cp2ZrCl2 (98% yield by NMR) (Eq. 2.27) [8a]. This complex was the same as that prepared from NiCl2(dppe) and l,4-dilithio-l,2,3,4-tetraphe-nyl-1,3-diene [30], In the case of NiCl2(PPh3)2, a similar transmetalation can proceed. Using this method, benzene and pyridine formation and CO insertion have been developed [8a,8b,46],... 

It is well known that alkenylzirconocenes are transmetalated to zinc and conveniently undergo further palladium-catalyzed cross-coupling reactions [7k,8a,32]. Although the transmetalation of zirconacyclopentadienes to zinc is not yet well developed, some interesting reactions that take place in the presence of ZnCl2 have already been described (Eq. 2.30) [9]. 

For a long time, zirconacyclopentadiene was considered to be inert towards carbon-carbon bond formation. However, through transmetalation to Cu, Ni, Zn, Li, and Al, various kinds of carbon—carbon bond-formation methodologies have been widely developed. One major advantage of this chemistry is that zirconacyclopentadienes can be conveniently prepared in situ, in high yields and with excellent selectivities, from two different alkynes. Combination of the selective formation of zirconacyclopentadienes and the chemistry of Cu, Ni, Zn, Li, or Al provides useful tools in organic synthesis. In the near future, it can be expected that more metals will be used for the transmetalation reactions of zirconacycle derivatives and some catalytic reactions will hopefully be developed. 

Watt and Drummond, were considered to be inert for C-C bond forming reactions. However, by the expedient of transmetallation to Cu, Ni, Zn, Li, and Al, methodologies for the stereoselective synthesis of olefins and dienes, as well as unusual heterocycles, aromatics and their ring-annulated products are now available which are beginning to make impact on material science, e. g. synthesis of pentacenes and polyphenylenes. Takahashi and Li provide evidence that, with further developments in transmetallation and handling the zirconacycles outside of the Schlenk tube techniques, synthetic utility will increase and new catalytic reactions will be developed. 

Many pyridine-indole compounds are biologically active. A growing number of methods for the preparation of indolylstannanes have been developed. 2-Trialkylstannylindoles, for example, have been synthesized via directed metalation followed by reaction with tin chloride [91-93]. The latest indolylstannane syntheses include Fukuyama s free radical approach to 2-trialkylstannylindoles from novel isonitrile-alkenes [94], and its extension to an isonitrile-alkyne cascade [95]. Assisted by the chelating effect of the SEM group oxygen atom, direct metalation of 1-SEM-indole and transmetalation with BujSnCl afforded 2-(tributylstannyl)-l//-indole 108, which was then coupled with 2,6-dibromopyridine to give adduct 109. 

Kawakami et al. have prepared optically active bifunctional l,3-dimethyl-l,3-diphenyldisiloxanes.158,159 Strohmann et al. have prepared enantiomerically enriched Si-centered silyllithium compounds, which react stereo-specifically with triorganochlorosilanes.160-162 In solution, slow racemization of the silyllithium compounds takes place, which, however, can be circumvented by transmetallation with MgBr2. Oestreich et al. prepared new Si-centered cyclic silanes adopting the strategies developed by Corriu and Sommer.163 Bienz et al. have developed enantioselective routes for the preparation of C-centered chiral allenylsilanes.156,164-166... 

Transmetalation reactions of organozirconium reagents were pioneered by Schwartz [130-132], with improved procedures developed more recently by Lipshutz [133] and Wipf [134]. The hydrozirconation of 1-hexene with H(Cl)ZrCp2 at 25 °C under sonication conditions produces the n-hexylzirconium complex 127, which adds to cyclohexenone in the presence of CuBr-Me2S (10 mol%) to afford the desired product 128 in 79% isolated yield (Scheme 2.61) [134]. 

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