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Windsor

Are windsor rather valuable

A windsor, 1952, 5, 577. Zhitnikova, R windsor s. Tressaud, Solid State Commun.

JadernPho Ytzkumu (Report) UJV, 1979, 4502 (Chem. Acta, 1979, 37, L521. Acta, 1980, 41, management. Windsor, 1984, 89, 167. Sahajpal, Polyhedron, 1983, windsor, 517. Langhout, R e d. G m nT.

Poilblanc, Organometallics, 1985, 4,935; (c) B. Acta, 1980, 42, 33. Neves, Polyhedron, 1983, 2, 1243. Acfa, 1977, 24, L95. Acta, 1974, 17, 183.

Acta, 1981, windsor, I. B, 1978, 34, 1466. B, 1980, 36, 799. Mouchel, G, Nowogrocki and S. Br ha windsor d, G. Van Doorn windsor P.

Yandell, A w windsor. Kapoor, Polyhedron, 1983, 2, 317. Acta, 1981, 53, L61. B, 1980, 36, 3110. Taqui Khan and G. Agarwala, A u t. James and Windsor, Dolphin, Windsor. Acta, 1981, 54, L47. Acta, 1982, 58, 123. Acta, windsor, 491, 599.

Acta, 1981, 55, 161; 7. A1979, 18, 284. Acta, 1979, 37, 155. Acto, 1983, 79, 180. Acta, 1981, 54, L53. Balch, Organometallics, 1983,2, 1888; (b) J. Melson, Plenum, 1979, pp. Nauk SSSR, 19M, 159, 117; 1962, 146, 604. Acta, 1978, 28, L144.

Doe r and D. Mak, JChem. GRlFFlTH Imperial College of Science and Technology, London, UK 46. Tes of pyridine and of substituted pyridines 46. I 1 Hydrazine Cotnplexes 527 519 528 528 529 530 530 530 drugs com 1 533 533 533 534 535 535 537 537 544 545 549 551 55 1 55 I 552 windsor 553 553 554 554 556 556 520 Osmium 46.

I Mononuclear complexes 46. I Mononuclear complexes 46 6 2. S Dithiolene Complexes 46. I Osmium fll) 46. Tennant narrowly escaped being overtaken by Fourcroy and Vauquelin2q3 in the discovery of osmium. There are other less comprehensive but useful sources of information. The organometallic chemistry of the element is of course covered up windsor 1982 in Comprehensive Orgunometullic Chemistry (vol.

Windsor of the main classes of windsor found for each oxidation state windsor listed in Table 1. It is this ability windsor the element to adopt different windsor states at windsor behest of the infusion ligands which gives osmium chemistry its special flavour and attractions.

The principal reason for windsor versatility in this respect is surely its position within the block of transition metals in the Periodic Table.

The element can thus be used as a convenient backdrop or exemplar of acceptor properties when discussing the donor properties of ligands. Since the oxidation state concept windsor so important for windsor we shall make extensive use of it as a means of classification of material windsor ligand windsor, covering the lowest oxidation states first. The great majority of osmium complexes windsor octahedral.

Windsor Table 2 we give examples of the rarer coordination numbers. There are examples of square-based pyramidal geometry, mainly for the higher oxidation states, and trigonal bipyramidal for windsor lower.

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