[Os3(CO)12], [H4Os4(CO)12], [H2Os4(CO)12]2-, [Os5C(CO)14]2-, and [Os10C(CO)24]2- have been synthesized selectively and in high yields by reductive carbonylation or hydrogenation of OsCl3 or α-[Os(CO)3Cl2]2 supported on silica in the presence of alkali carbonates. The selectivity of the reaction is controlled by the choice of (i) the nature and quantity of the alkali carbonate (Na2CO3 or K2CO3) added to silica, (ii) temperature, (iii) reaction time, and (iv) the gas-phase composition (CO, CO + H2, or H2). These surface-mediated syntheses are often more selective and more efficient and usually require less drastic conditions than the best known syntheses in solution, confirming the potential use of the silica surface as a new reaction medium to prepare both neutral and anionic metal carbonyl clusters.
Surface-Mediated Organometallic Synthesis: High-Yield Preparations of Neutral and Anionic Osmium Carbonyl Clusters by Controlled Reduction of Silica-Supported [Os(CO)3Cl2]2and OsCl3in the Presence of Na2CO3or K2CO3 / D. Roberto, E. Cariati, R. Ugo, R. Psaro. - In: INORGANIC CHEMISTRY. - ISSN 0020-1669. - 35:8(1996), pp. 2311-2316. [10.1021/ic950624j]
Surface-Mediated Organometallic Synthesis: High-Yield Preparations of Neutral and Anionic Osmium Carbonyl Clusters by Controlled Reduction of Silica-Supported [Os(CO)3Cl2]2and OsCl3in the Presence of Na2CO3or K2CO3
D. RobertoPrimo
;E. CariatiSecondo
;R. UgoPenultimo
;
1996
Abstract
[Os3(CO)12], [H4Os4(CO)12], [H2Os4(CO)12]2-, [Os5C(CO)14]2-, and [Os10C(CO)24]2- have been synthesized selectively and in high yields by reductive carbonylation or hydrogenation of OsCl3 or α-[Os(CO)3Cl2]2 supported on silica in the presence of alkali carbonates. The selectivity of the reaction is controlled by the choice of (i) the nature and quantity of the alkali carbonate (Na2CO3 or K2CO3) added to silica, (ii) temperature, (iii) reaction time, and (iv) the gas-phase composition (CO, CO + H2, or H2). These surface-mediated syntheses are often more selective and more efficient and usually require less drastic conditions than the best known syntheses in solution, confirming the potential use of the silica surface as a new reaction medium to prepare both neutral and anionic metal carbonyl clusters.
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