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Iridium compounds synthesis

Synthesis. The principal starting material for synthesis of iridium compounds is iridium trichloride hydrate [14996-61-3], IrCl3-a H2 0. Another useful material for laboratory-scale reactions is [Ir20l2(cod)2] [12112-67-3]. [Pg.181]

Na,IrCl6 is a convenient starting material in the synthesis of iridium compounds. [Pg.83]

Anthrylmethyl-functionalized cyclopentadienyl iridium complexes, synthesis, 7, 368-369 Antibacterial agents, discovery and characteristics, 1, 894 Antibiotics, via enyne metathesis, 11, 297-298 Anticancer compounds... [Pg.54]

In synthesis (b), the initial product is a 5-coordinate (sp) iridium(III) hydride complex, which is rapidly oxidized in solution to the planar iridium(II) complex. Both of the compounds are paramagnetic with one unpaired electron, as expected for square planar d7 complexes. [Pg.145]

Following this observation, a general approach for the synthesis of pincer-type methylene arenium compounds was developed (Scheme 3.4). Upon reaction of the methyl rhodium (or iridium) complexes 5 with a slight excess of triflic acid, dihydrogen (not methane ) was evolved to form the methylene arenium complexes 4a.11 Thus, the methylene arenium form is clearly preferred over the benzylic M(III) form, in which the positive charge is localized at the metal center. [Pg.72]

To date, only a few iridium catalysts have been applied to industrially relevant targets, especially on the larger scale. It is likely that several types of Ir catalyst are, in principle, feasible for technical applications in the pharmaceutical and agrochemical industries. At present, the most important problems are the relatively low catalytic activities of many highly selective systems and the fact, that relatively few catalysts have been applied to multifunctional substrates. For this reason, the scope and limitations of most catalysts known today have not yet been explored. For those in academic research, the lesson might be to employ new catalysts not only with monofunctional model compounds but also to test functional group tolerance and-as has already been done in some cases-to apply the catalysts to the total synthesis of relevant target molecules. [Pg.13]

Cycloisomerization represents another approach for the construction of cyclic compounds from acyclic substrates, with iridium complexes functioning as efficient catalysts. The reaction of enynes has been widely studied for example, Chatani et al. reported the transformation of 1,6-enynes into 1-vinylcyclopentenes using [lrCl(CO)3]n (Scheme 11.26) [39]. In contrast, when 1,6-enynes were submitted in the presence of [lrCl(cod)]2 and AcOH, cyclopentanes with two exo-olefin moieties were obtained (Scheme 11.27) [39]. Interestingly, however, when the Ir-DPPF complex was used, the geometry of olefinic moiety in the product was opposite (Scheme 11.28) [17]. The Ir-catalyzed cycloisomerization was efficiently utilized in a tandem reaction along with a Cu(l)-catalyzed three-component coupling, Diels-Alder reaction, and dehydrogenation for the synthesis of polycyclic pyrroles [40]. [Pg.289]

This chapter describes the application of iridium-catalyzed reactions in the synthesis of molecular and macromolecular organosilicon compounds and related sihcon derivatives. Some mechanistic implications are introduced which illustrate the specific catalytic activation of organic and silicon compounds by iridium... [Pg.345]

The direct silylation of arenes through C—H bond activation provides an attractive route for the synthesis of useful aromatic compounds [64]. Vaska s complex was the first of the iridium catalysts to be reported for activation of the C—H bond in benzene by Si—H of pentamethyldisiloxane to yield phenylsubstituted siloxane [65]. However, a very attractive method for the aromatic C—H silylation with disilanes has been recently reported by the groups of Ishiyama and Miyaura [66-68]. [Pg.359]

Iridium-catalyzed reactions of organosilicon derivahves with various organic compounds involving C—C bond formation have been found suitable for the synthesis... [Pg.362]

By contrast, the isomerization of silyl olefins and addition of silylacetylenes =C—H bond into imines catalyzed by iridium complexes appears to serve as a suitable route for the synthesis of silylfunctionahzed organic compounds. Hence, the acquisition of experimental data on catalysis by iridium complexes in silicon chemistry may be regarded as an initial stage in the quest for catalytic processes leading to the synthesis of other p-block (e.g. B, Ge, Sn, P)-carbon bond-containing compounds. [Pg.364]

See other pages where Iridium compounds synthesis is mentioned: [Pg.490]    [Pg.207]    [Pg.130]    [Pg.121]    [Pg.185]    [Pg.339]    [Pg.121]    [Pg.141]    [Pg.151]    [Pg.7]    [Pg.270]    [Pg.122]    [Pg.954]    [Pg.185]    [Pg.514]    [Pg.119]    [Pg.202]    [Pg.242]    [Pg.631]    [Pg.1073]    [Pg.186]    [Pg.13]    [Pg.121]    [Pg.55]    [Pg.107]    [Pg.176]    [Pg.186]    [Pg.334]    [Pg.412]   


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Iridium compound

Iridium synthesis

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