SYNTHESIS palladacycles

Fig. 27 Synthesis of pentaphenyl ferrocene oxazoline palladacycle precatalyst 53-Cl...

Anderson CE, Donde Y, Douglas CJ, Overman LE (2005) Catalytic asymmetric synthesis of chiral allylic amines. Evaluation of ferrocenyloxazoline palladacycle catalysts and imidate motifs. J Org Chem 70 648-657... 

Prasad RS, Anderson CE, Richards CJ, Overman LE (2005) Synthesis of tert-leucine-derived cobalt oxazoline palladacycles. Reversal of palladation diastereoselectivlty and application to the asymmetric rearrangement of N-aryl trifluoroacetimidates. Organometallics 24 77-81... 

The Suzuki-Miyaura synthesis is one of the most commonly used methods for the formation of carbon-to-carbon bonds [7]. As a palladium catalyst typically tetrakis(triphenylphosphine)palladium(0) has been used, giving yields of44—78%. Recently, Suzuki coupling between aryl halides and phenylboronic acid with efficient catalysis by palladacycles was reported to give yields of 83%. 

The use of well-defined complexes has been widespread in this reaction, despite intriguing studies by Beller and others that have shown that in situ catalytic systems often give better yields in comparison to isolated carbene-Pd(O) complexes [147-149]. Since the mechanism consists of an oxidative addition on a Pd(0)-monocarbene species, efforts in catalyst synthesis have been directed towards Pd(ll)-monocarbene complexes with other labile groups that can be easily released leading to the formation of Pd(0). This is the case for dimers of the type [Pd( j,-C1)C1(NHC)]2, a family of pre-catalysts effective under aerobic conditions [150], the [Pd(acac)Cl(NHC)] complexes [151] and related palladacycles [152-154],... 

We have shown that the direct arylation of acrolein toward the synthesis of cinnamaldehyde derivatives was an efficient procedure. Using the palladacycle 1 as catalyst, substituted aldehydes 3 were prepared with up to 87% isolated yield from condensed aiyl bromides (Scheme 21.1, Route 1) that was extended successfully to heteroaiyl bromides, like bromoquinolines (6). Alternatively, the acrolein diethyl acetal was used as olefin and a selective formation of the saturated ester 4 was attained under the same reaction conditions (Scheme 21.1, Route 2). The expected aldehydes 3 were, however, obtained from most of the aiyl halides used under modified conditions. It was shown that the addition of n-Bu4NOAc in the medium... 

Larock and coworkers identified a Pd-catalyzed double C-H-activation by reaction of N-(3-iodophenyl)anilines as 6/1-105 with alkynes as 6/1-106 [59]. Thus, reaction of 6/1-105 with 6/1-106 in the presence of Pd° led to 6/1-107 in reasonable yield. It can be assumed that the two palladacycles 6/1-108 and 6/1-109 act as intermediates. The procedure allows the efficient synthesis of substituted carbazoles (Scheme 6/1.28). 

This protocol could be extended to a range of different ,/i-unsaturated carbonyl compounds and either activated or deactivated aryl iodides [22], An application of related Heck chemistry to the synthesis of methylated resveratrol (3,4, 5-trihydroxy-( )-stilbene) is shown in Scheme 6.4 [23]. The phytoalexin resveratrol exhibits a variety of interesting biological and therapeutic properties, among them activity against several human cancer cell lines. Botella and Najera have shown that the trimethyl ether of resveratrol (Scheme 6.4) can be rapidly prepared by microwave-assisted Heck reaction of the appropriate aryl iodide and styrene derivatives, using the same oxime-derived palladacycle as indicated in Scheme 6.3. 

Carbonylations involving catalytic amounts of Pd(n) and substoichiometric Cu(n) have been developed for the synthesis of lactams. This Wacker-type process is assumed to proceed via C-H functionalization involving a palladacycle intermediate such a hypothesis is backed by the high degree of regioselectivity attained, when using a bis-chelating substrate (Equation (114)).104... 

Catellani s group have exploited the use of palladacycles for the synthesis of a host of interesting molecules. Here, palladium-containing intermediates, which cannot /3-eliminate easily, are used to perform further annulations. Palladium(iv) species are involved (Equation (151)).128... 

The teleocidin B4 core 15 is synthesized from the Shiff base of 2-/< //-butyl-5-methoxyaniline, as shown in Scheme 16.161 The key sequence of this synthesis consists of two G-H bond functionalizations, alkenylation and oxidative carbonylation of two methyl groups, via palladacycle formations. 

The natural diterpenoid rostratone 16 is synthesized from ethylene ketal as shown in Scheme 17.162 In this synthesis, the Pd-mediated remote acetoxylation is achieved by G-H bond activation by Na2PdCl4 giving palladacycle dimers followed by treatment with pyridine and lead tetraacetate. 

Oxidative phenolic coupling. Biosynthesis of the alkaloid narwedine (3) is known to involve oxidative phenolic coupling of norbelladine derivatives (1), but the usual oxidants for such coupling in vitro convert 1(R = H) into the oxomaritidine skeleton (4) rather than 3. A new biomimetic synthesis of 3 involves the palladacycle 2, formed by reaction of 1(R = CH3) with Li2PdCl4, which is known to form complexes with allylic amines or sulfides (8,176-177). Oxidation of 2 with thallium(III) trifluoroacetate effects the desired coupling to give 3. 

Benzofurans and dihydrobenzofurans have been prepared on polymeric supports by the palladium-mediated reaction of 2-iodophenols with dienes or alkynes (Entries 1 and 2, Table 15.9). This reaction is closely related to the synthesis of indoles from 2-iodoanilines, and probably proceeds via an intermediate palladacycle (Figure 15.3). Benzofuran and isobenzofuran derivatives have also been prepared on cross-linked polystyrene by intramolecular addition of aryl radicals to C=C double bonds and by intramolecular Heck reaction. 

Cyclometallated iridium complexes, for OLEDs, 12, 145 Cyclometallated palladium(II) complexes from amines and pyridines, 8, 280 with C,C-chelating ligands, 8, 291 enantioselective synthesis, 8, 296 ferrocene-based palladacycles, 8, 292 four-membered palladacycles, 8, 297 imine- and oxime-based complexes, 8, 285 with N-N and N=N bonds, 8, 288 palladacycle catalysis, 8, 297... 

A plausible mechanism for the one-pot synthesis ofcarbazoles is shown in Scheme 5. It consists of two interlinked catalytic cycles. In the first cycle a classical Buchwald-Hartwig amination reaction occurs to generate an intermediate 5 which then enters the second cycle by oxidative addition to Pd(0). The resulting Pd(II) complex then undergoes intramolecular C-H activation to give a six-membered palladacycle which subsequently yields the carbazole by reductive elimination. 

The synthesis of selectively substituted benzoxepines from ortho-substituted aryl iodides and bromoenoates has been achieved by Lautens and coworkers by palladacycle alkylation followed by an intramolecular Heck reaction under the modified conditions reported in Eq. (8) for synthesis of l-(l-ethoxycarbonylmethy-lene)-9-methyl-4,5-dihydro-3-benzoxepine [8]. In the second example (Eq. 9) the palladium-bonded biphenylyl inserts diphenylacetylene to form 1,5-di-i-propyl-9,10-diphenylphenanthrene[9]. In the last case the synthesis of 4-methyl-5H-phenanthridin-6-one is achieved by palladium-catalyzed sequential C-C and C-N bond formation starting from o-iodotoluene and o-bromobenzamide [10]. 

The C-H transformation of imines via palladacycles has recently provided a novel synthesis of fluoren-9-ones [4], This high yielding synthesis is achieved by migration of palladium from an aryl position to an imidoyl position via C-H activation of the imine moiety, followed by intramolecular arylation (Scheme 2). 

The mechanism of the indenone synthesis (Scheme 3) seems to involve (1) oxidative addition of the aryl iodide to Pd(0) (2) arylpalladium coordination to the alkyne and subsequent insertion of the alkyne to form a vinylpalladium intermediate (8), (3) then either the vinylic palladium intermediate adds to the carbonyl group and subsequently undergoes a /3-hydride elimination (path A) or the alde-hydic C-H bond may oxidatively add to the palladium to produce an organopalla-dium(IV) intermediate (six-membered ring palladacycle) which subsequently undergoes rapid reductive elimination of the indenone and palladium (path B). The actual mode of ring closure of the vinylic palladium intermediate to the inde-... 

Scheme 3.2 Structure of a palladacycle used in the synthesis of the derivatives of 2, 3 and 4.

To date, the most efficient catalyst system for the synthesis of di- and tri-substituted biaryls is based on a NHC-bearing palladacycle, Na(TBu and technical grade isopropanol [144]. This combination allows the coupling of... 

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