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Iridium reactions with

Iridium, dicarbonylcyclopentadienyl-reaction with hexafluorobut-2-yne, 1, 666 Iridomyrmecin crystallography, 3, 624 Iron, bis(borinato)-, 1, 645 Iron, bis(l-methylborinato)-deborination, 1, 645... [Pg.675]

Reaction of the cyclopentadienyl rhodium and iridium tris(acetone) complexes with indole leads to the species 118 (M = Rh, Ir) [77JCS(D)1654 79JCS(D)1531]. None of these compounds deprotonates easily in acetone, but the iridium complex loses a proton in reaction with bases (Na2C03 in water, r-BuOK in acetone) to form the ri -indolyl complex 119. This reaction is easily reversed in the presence of small amounts of trifluoroacetic acid. [Pg.137]

Complex [(CXI )Ir(/j,-pz)(/i,-SBu )(/j,-Ph2PCH2PPh2)Ir(CO)] reacts with iodine to form 202 (X = I) as the typical iridium(II)-iridium(II) symmetrical species [90ICA(178)179]. The terminal iodide ligands can be readily displaced in reactions with silversalts. Thus, 202 (X = I), upon reaction with silver nitrate, produces 202 (X = ONO2). Complex [(OC)Ir(/i,-pz )(/z-SBu )(/i-Ph2PCH2PPh2)Ir(CO)] reacts with mercury dichloride to form 203, traditionally interpreted as the product of oxidative addition to one iridium atom and simultaneous Lewis acid-base interaction with the other. The rhodium /i-pyrazolato derivative is prepared in a similar way. Unexpectedly, the iridium /z-pyrazolato analog in similar conditions produces mercury(I) chloride and forms the dinuclear complex 204. [Pg.208]

Iridium, carbonylchlorobis(triphenylphosphine) solid state reactions with hydrogen chloride, 1, 470 Iridium, dihalodicarbonyl-, 6, 142 Iridium, hexachloro-catalysts... [Pg.145]

In 2004, Bolm et al. reported the use of chiral iridium complexes with chelating phosphinyl-imidazolylidene ligands in asymmetric hydrogenation of functionalized and simple alkenes with up to 89% ee [17]. These complexes were synthesized from the planar chiral [2.2]paracyclophane-based imida-zolium salts 74a-c with an imidazolylidenyl and a diphenylphosphino substituent in pseudo ortho positions of the [2.2]paracyclophane (Scheme 48). Treatment of 74a-c with t-BuOLi or t-BuOK in THF and subsequent reaction of the in situ formed carbenes with [Ir(cod)Cl]2 followed by anion exchange with NaBARF afforded complexes (Rp)-75a-c in 54-91% yield. The chela-... [Pg.222]

See other pages where Iridium reactions with is mentioned: [Pg.888]    [Pg.118]    [Pg.497]    [Pg.662]    [Pg.29]    [Pg.181]    [Pg.181]    [Pg.191]    [Pg.192]    [Pg.205]    [Pg.12]    [Pg.201]    [Pg.166]    [Pg.192]    [Pg.121]    [Pg.180]    [Pg.659]    [Pg.67]    [Pg.68]   


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2-Mercaptobenzothiazole, in metal reaction with iridium complexes

4,4 ,5,5 -Tetracyano-2,2 -biimidazole reaction with rhodium and iridium

4- butane reaction with iridium complexes

Hydrotris borate, in iridium reaction with rhodium complexes

Iridium clusters, reaction with carbon

Iridium complexes reaction with carbon monoxide

Iridium complexes reaction with sulfur dioxide

Iridium complexes, reaction with

Iridium hydrated chlorides, reaction with

Iridium pyrazolate complexes reaction with

Iridium reaction with alkanes

Iridium reaction with methane

Iridium reactions with halogens

Iridium reactions with other substrate complexes

Lithium benzothiazole-2-thiolate, rhenium reaction with iridium complexes

Thallium benzotriazolate, reaction with iridium carbonyls

Tris methane, reaction with as a ligand in rhodium and iridium

With iridium

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