Ruthenium tetracarbonyl

Results of reactions of bis(dimethylgermyl)ethane-ruthenium tetracarbonyl (332) <90JOM(395)27> with oxidants (which can be regarded as electrophiles) allow the electrophilic attack at Ru (or nucleophilic attack at Ge) to be presumed (Scheme 33). [Pg.879]

Reactions of bis(dimethylgermylethane-iron and -ruthenium tetracarbonyls with o-quinones probably undergo a SET process to give eight-membered digermylated dioxocanes <90IC1674, 91JOM(406)123>. [Pg.881]

Bis(trimethylsilyl)ruthenium tetracarbonyl reacts with cyclooctate-traene in refluxing hexane, to give silylated 7r-complexes, formed by... [Pg.134]

O4RU2C14H10, Ruthenium, tetracarbonyl-bis(n -cyclopentadienyl)di-, 25 180 O5C10H20, 1,4,7,10,13-PentaoxacycIopenta-decane... [Pg.283]

RU2O4C14H10, Ruthenium, tetracarbonyl- bis(it -cyclopentadienyl)di-, 25 180 RU3C0NO13P2C49H30, Ruthenate(l -), tri-decacarbonylcobalttri-, p-nitri-dobis(triphenylphosphorus)(l +), 21 63 Ru,FeNOi3P2C49H3i,Ruthenate(l -),trideca-carbonylhydridoirontri-, p-nitrido-bis-(triphenylphosphonis)(l + ), 21 60 RuFeOi3C,3H2, Iron, tridecacarbonyldihy-dridotriruthenium-, 21 58 RU3NO11C19H21, Ruthenate(l-), p-car-bonyl-lKC 2KC-decacarbonyl-lK C,2K C,3K C-p-hydrido-lK 2K-triangulo-tti-, tetraethylammonium, 24 168... [Pg.294]

Ru03C,H,2, Ruthenium(O), tricarbonyl(l,5-cyclooctadiene)-, 28 54 RuOjCjHj, Ruthenium, tetracarbonyl(Ti -methyl acrylate)-, 28 47 RUOJP2C41H34, Ruthenium(II), (ri -cyclo-pentadienyl)(2-((diphenoxyphos-phino)oxy)phenyl-C,F)(triphenyl phosphite-F)-, 26 178 RUPC30H33, Ruthenium(II), [2-(diphenyl-phosphino)phenyl-C, F](Ti -hexa-methylbenzene)hydrido-, 26 182 RuP4C,2Hj2, Ruthenium(II), dihydrido-tetrakis(triphenylphosphine)-, 28 337 Ru2Cl4C2oH3g, Ruthenium(III), di-p-... [Pg.416]

RU2O4C14HK, Ruthenium, tetracarbonyl-bis(T -cyclopentadienyl)di-, 28 189 Ru3Au3CoO 2P3Cg4H45, Ruthenium, dodecacarbonyltris(triphenylphos-phine)cobalt-trigoldtri-, 26 327... [Pg.416]

The mononuclear metal carbonyls contain only one metal atom, and they have comparatively simple structures. For example, nickel tetracarbonyl is tetrahedral. The pentacarbonyls of iron, ruthenium, and osmium are trigonal bipyramidal, whereas the hexacarbonyls of vanadium, chromium, molybdenum, and tungsten are octahedral. These structures are shown in Figure 21.1. [Pg.742]

C1F6N3PRuC,4H2i, Ruthenium(II), tris-(acetonitrile)chloro(V-l, 5-cyclooctadiene)-hexafluroophosphat(l -), 26 71 ClHgMn20KPC2l H1(i, Manganese, x-(chloromercurio)-p.-(diphenylphos-phino)-bis(tetracarbonyl)-(Mn—Mn), 26 230 ClIrP3C,4H4 , Iridium(I), chlorotris-(triphenylphosphine)-, 26 201... [Pg.416]

Ruthenium(l-t-), tetracarbonyl-p-hydrobis(pyridine)bis[ i-(2-pyridinyl-C N)]di-, Ru-Ru), stereoisomer, tricosacar-bonyl- -hydro-m-me thane tetrayl(tri-phenylphosphine)decaruthenate( 1 -) cluster, 32 290-91... [Pg.330]

The most stable carbonyl for ruthenium is the trimeric tetracarbonyl Ru3(CO)i2 (1), with Ru(CO)5 (2) and Ru2(CO)9 (3) being much less stable. Compounds (2) and (3) are prepared from Ru3(CO)i2 and revert to it on standing or irradiation. No neutral homoleptic see Homoleptic Compound) mthenium carbonyl of higher nuclearity, in particular no analog of Os6(CO)i8, is known. [Pg.4141]

AsFe04C22H,5, lron(0), tetracarbonyl(tri-phenylarsine)-, 26 61, 28 171 AsjCijHij, Arsine, l,2-phenylenebis(di-methyl-, gold complex, 26 89 nickel complex, 28 103 AsjCljNRuSCjgHjo, Ruthenium(II), tri-... [Pg.341]

BrSiCjH, Silane, bromotrimethyl, 26 4 BfjAuNCigHjg, Aurate(I), dibromo-, tetra-butylammonium, 29 47 Br lNCigHjg, Iodate(I), dibromo- tetra-butylammonium, 29 44 BrjISigCigHg, lodate(I), dibromo-, 5,5 -6,6 -tetrahydro-2,2 -bi-l,3-dithioo 4,5-6][l,4]dithiinyidene (1 2), 29 45 Br2Mo04C4, Molybdenum(II), dibromo-tetracarbonyl-, 28 145 Br2N2RuC22H22, Ruthenium(II). bis(ben-zonitrile)>iibromo(Ti -l,5-cyclo-octadiene)-, 26 71... [Pg.346]

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