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Matsuda-Heck reaction

The Heck-type cross-coupling reactions can also be performed with aryldiazo-nium salts [247,273-278] (frequently called the Matsuda or Heck-Matsuda reaction), N-nitroso-N-arylacetamides [248], and hypervalent iodo compounds [250] at room temperature. [Pg.552]

Indatraline and ( )-sertraline Intermolecular Heck-Matsuda reaction [499]... [Pg.615]

The use of arenediazonium salts as arylating reagents of olefins was first reported by Matsuda in 1977 [18,19]. This reaction has been appropriately coined the Heck-Matsuda reaction (Scheme 1.4a). [Pg.3]

Scheme 1.4 (a) The Heck-Matsuda reaction conditions and (b) accepted mechanism for the Heck-Matsuda reaction [19]. [Pg.5]

Scheme 1.5 The synthesis of Prosulfuron by Ciba Geigy AG employing a Heck-Matsuda reaction as a pivotal step [20]. Scheme 1.5 The synthesis of Prosulfuron by Ciba Geigy AG employing a Heck-Matsuda reaction as a pivotal step [20].
Arylations with the Heck-Matsuda Reaction - Recent Developments... [Pg.43]

Alternative solvents have been developed for the Heck-Matsuda reaction. This reaction has recently been performed in neat water by Najera s group [95]. The reaction was carried out using an oxime-derived palladacycle catalyst and palladium acetate using a variety of different diazonium tetrafluoroborates giving styrenes, stllbenes, arylideneketones, and cinnamate esters (Figure 1.26). [Pg.43]

In 2012, Gholinejad reported the Heck-Matsuda reaction (as well as the Suzuki-Miyaura reaction) using palladium nanoparticles [97]. The nanoparticles were supported on agarose beads, and at a loading of 2.6 pmol a variety of aryl ditizonium tetrafluoroborate salts could be coupled with... [Pg.43]

Figure 1.25 A cross-section of key synthetic targets accessed by the Heck-Matsuda reaction in recent years. Figure 1.25 A cross-section of key synthetic targets accessed by the Heck-Matsuda reaction in recent years.
Figure 1.27 Attempts by Correia s group [96] at developing an asymmetric Heck-Matsuda reaction in chiral RTILs leading to (fi,S)-paroxetine. Figure 1.27 Attempts by Correia s group [96] at developing an asymmetric Heck-Matsuda reaction in chiral RTILs leading to (fi,S)-paroxetine.
The Heck-Matsuda reaction has also been subjected to continuous flow chemistry conditions, as reported by Wirth et al. [100]. The reaction that was studied involved the reaction between an in situ generated diazonium ion and/r-fluorostyrene to give ( )-/ -fluorostilbene (Scheme 1.35) and the device used by this group relied on a segmented flow (liquid-liquid slug flow) to increase reaction rates in microfluidic flow. They used perfluorodecalin as an inert and immiscible liquid spacer. [Pg.46]

Scheme 1.35 The segmented flow process for the Heck-Matsuda reaction developed by Wirth s group... Scheme 1.35 The segmented flow process for the Heck-Matsuda reaction developed by Wirth s group...
Heck-Matsuda reaction. This reaction was first described in 1977 by Tsutomu Matsuda, who pointed out the unique reactivity of the arenediazonium salts in the Heck reaction, allowing a fast and direct generation of cationic aryl-palladium species in the reaction medium. Indeed, the high levels of chemo- and stereocontrol observed in these reactions usually do not depend on the use of halide scavengers (such Ag" or Tl salts), dry solvents, inert atmosphere, or phosphane hgands (Scheme 1) ... [Pg.7]

Another aspect that probably contributed to the limited interest in the Heck-Matsuda reaction in organic synthesis for many years was the absence of its enantioselective version. In 2012, we described the first enantioselective Heck-Matsuda arylation of olefins using the chiral bisoxazoline 1 as the ligand for this transformation. This opened the door for the application of this reaction in more challenging transformations such as the enantioselective arylation of acyclic olefins in good yields with enantiocontrol (Scheme 2). Initial studies were carried out aiming at the desymmetrization of cyclic olefins (2), and arylation of more challenging acyclic olefins (4). [Pg.8]

The general catalytic cycle for the Heck-Matsuda reaction using acyclic olefins starts with the oxidative addition of the Pd(0) catalyst A to the aryldiazonium salt and sequential elimination of nitrogen to produce the cationic palladium species C. This intermediate is very electrophilic and it promptly... [Pg.8]

SCHEME 3 General catalytic cycle for the Heck-Matsuda reaction. [Pg.9]

SUBSTRATE-DIRECTED HECK-MATSUDA REACTION 2.1 Some Preliminary Results... [Pg.9]

We reported our first results with the Heck-Matsuda reaction in the late 1990s for the arylation of chiral, nonracemic, endocyclic enecarbamates 9 to produce the aryl pyrroUdines 8. These interesting intermediates were further applied in the total synthesis of several fully substituted A -heterocycles with pharmacologically active compounds such as the antibiotic and hypertensive pyrrolidine alkaloid codonopsinine 6, and the antitrypanosomal Schramm s C-azanucleoside 7 (Scheme 4). ... [Pg.9]

The initial objective in these early studies was the synthesis of the trans-substituted aryl pyrrolidines. Therefore, the Heck-Matsuda reactions were... [Pg.9]

SCHEME 4 Heck-Matsuda reaction of endocyclic enecarbamates. [Pg.10]

DEVELOPMENT AND SYNTHETIC APPLICATIONS OF THE SUBSTRATE-DIRECTED HECK-MATSUDA REACTION... [Pg.11]

These substrate-directed Heck reactions allowed the synthesis of pharmacologically active compounds in a very straightforward way. For example, compotmd 26 was oxidized with DDQ to provide the natural product yango-nine 27. Additionally, methysticin 28 was obtained in 59% yield (95% based on recovered starting material) directly from the Heck-Matsuda reaction. The chemoselective reduction of the least hindered double bond of 28, using Pd/C as catalyst, provided dehydromethysticine 29 in 95% yield (Scheme 11). [Pg.16]

An interesting observation in this process concerns the influence of the solvent. We used benzonitrile as the solvent, whereas Cacchi s method uses acetonitrile. With benzonitrile electronic factors rule the selectivity, while with acetonitrile the steric aspects seem to predominate. A plausible explanation is based on the difference of polarity between the two solvents as well as their donicity number (a tendency of the solvent to interact with a Lewis acid). As acetonitrile is more polar than the benzonitrile, transition states without the interaction between the palladium and the carbonyl such as 59 and 60 are favored. The opposite phenomenon is expected for the benzonitrile, with its lower donicity. The cationic palladium intermediate is internally solvated by the carbonyl oxygen, thus favoring the cyclic intermediate. With decreased solvation of the cationic palladium, a closer contact of the carbOTiyl moiety to the metal is facilitated (Scheme 17). These data suggest that these parameters explain the key role of the benzonitrile in the Heck-Matsuda reaction. [Pg.20]

TABLE 4 Substrate-Directed Heck-Matsuda Reaction with Allylamine Derivatives... [Pg.21]

See other pages where Matsuda-Heck reaction is mentioned: [Pg.592]    [Pg.371]    [Pg.615]    [Pg.615]    [Pg.615]    [Pg.43]    [Pg.85]    [Pg.6]    [Pg.6]    [Pg.7]    [Pg.7]    [Pg.8]    [Pg.9]    [Pg.11]    [Pg.14]    [Pg.15]    [Pg.20]    [Pg.20]    [Pg.24]   
See also in sourсe #XX -- [ Pg.2 , Pg.10 , Pg.10 ]

See also in sourсe #XX -- [ Pg.816 ]



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Arylations with the Heck-Matsuda Reaction-Recent Developments

Catalytic cycle, Heck-Matsuda reaction

Heck-Matsuda reaction arylation

Heck-Matsuda reaction catalyst

Substrate-directed Heck-Matsuda reaction

The Heck-Matsuda Reaction

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