Stepwise construction of [Os6(CO)186-P)]-, a hexanuclear osmium cluster monoanion with trigonal-prismatic co-ordination for phosphorus: X-ray crystal structures of [Os6(μ-H)2(CO)20(MeCN)(μ3-PH)] and [PPh3Me][Os6(CO)186-P)]

Stephen B. Colbran, Fernando J. Lahoz, Paul R. Raithby, Jack Lewis, Brian F.G. Johnson, Christine J. Cardin

Research output: Contribution to journalArticlepeer-review

Abstract

Treatment of the labile cluster [Os3(CO)11(MeCN)] with PH3 affords the substituted product [Os3(CO)11(PH3)] (1) in high yield. Subsequent reaction of (1) with Na2CO3 in MeOH, followed by acidification, gives the hydrido phosphido cluster [Os3(μ-H)(CO)10(μ-PH2)] (2). When (2) is heated to 45-60 °C in the presence of [Os3(CO)11(MeCN)] a hexanuclear complex with the formulation [Os6(μ-H)2(CO)213-PH)] (3) is obtained. If this reaction is repeated using [Os3(CO)10(MeCN)2] instead of [Os3(CO)11(MeCN)], an acetonitrile-containing product, [Os6(μ-H)2(CO)20(MeCN)(μ3-PH)] (4), is obtained. An X-ray analysis of (4) shows that two Os3 triangular units are linked by a μ3-phosphinidene ligand, which symmetrically bridges an Os-Os edge of one triangle and is terminally co-ordinated to one Os atom of the second triangle. When (3) is treated with a weak base, such as [N(PPh3)2]Cl or [PPh3Me] Br, deprotonation to the corresponding cluster monoanion [Os6(μ-H)(CO)213-PH)]- (5) occurs. Treatment of (5) with a weak acid regenerates (3) in quantitative yield. Thermolysis of (3) leads to a closing up of the metal framework, affording the cluster [Os6(μ-H)(CO)186-P)], which readily deprotonates to give the anion [Os6(CO)186-P)]- (7) in the presence of [N(PPh3)2] Cl or [PPh3Me]Br. The same anion (7) may also be obtained by direct thermolysis of (5). An X-ray analysis of the [PPh3Me]+ salt of (7) confirms that the phosphorus occupies an interstitial site in a trigonal-prismatic hexaosmium framework, and co-ordinates to all six metal atoms with an average Os-P distance of 2.31 (1) Å. Proton and 31P n.m.r. data on all the new clusters are presented, and the position of the phosphorus resonance in the 31P n.m.r. spectrum is related to the changes in the environment of the phosphorus atom.

Original languageEnglish
Pages (from-to)173-181
Number of pages9
JournalJournal of the Chemical Society, Dalton Transactions
Issue number1
DOIs
Publication statusPublished - 31 Dec 1988

ASJC Scopus subject areas

  • General Chemistry

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