Nitrosyl, nitrido and sulphido clusters of ruthenium and osmium

Mace, J. M.

January 1985

No description available.

547

Organometallic clusters

Synthesis and reactivity of unsaturated triosmium carbonyl clusters

Dolby, P. A.

January 1988

No description available.

547

Organometallic clusters

Synthesis, Kinetic Studies, and Structural Investigations of Osmium and Ruthenium Clusters

Nesterov, Volodymyr

07 1900

Addition reactions of ten neutral nucleophiles and seven anionic nucleophiles with the pentaosmium pentadecacarbonyl carbido cluster Os5C(CO)15 have been kinetically studied and several important reactivity trends have been established. The calculated activation parameters support an associative mechanism involving the attack of nucleophiles on the parent cluster in the rate-limiting step. Decarbonylation reactions of neutral arachno clusters Os5C(CO)15L have also been kinetically studied and different reactivity trends have been observed. Reactions of Os5C(CO)15 with both neutral and anionic nucleophiles produce corresponding arachno clusters in good yield. Neutral arachno clusters decarbonylate when heated to yield corresponding nido clusters. All studied anionic arachno clusters are resistant to decarbonylation, but most of them readily react with organic acids to form corresponding hydrido clusters. Reactions of anionic arachno clusters with methyl triflate yielded several new clusters. Exploration of metal-ligand bond lengths in the respective pairs of arachno and nido clusters yielded a valuable conclusion with regard to steric effects prevalent in these molecules. The mechanisms for polyhedral structural rearrangements between arachno and nido derivatives of the pentaosmium carbido cluster have been proposed. Thermolysis of cluster Ru3[Ph2PCH(Me)PPh2](CO)10 in the presence of diphenylacetylene yields alkyne-substituted clusters Ru3(PhCCPh)[Ph2PCH(Me)PPh2](CO)8 and Ru3(PhCCPh)[Ph2PCH(Me)PPh2](CO)7 as the major products. The backbone-modified diphosphine in both clusters has facilitated the growth of single crystals suitable for X-ray crystallography. The kinetics for the conversion between two clusters have been investigated and the calculated activation parameters were found to be inconsistent with a rate-limiting step involving a dissociative loss of CO.

Organometallic clusters

osmium

ruthenium

kinetic studies

mechanism

Synthèse et caractérisation de nanoparticules de phosphure de cobalt dans des solides mesoporeux organisés / Synthesis and characterization of Cobalt Phosphide Nanoparticles Supported on Organized Mesoporous Solids

Buchwalter, Paulin

22 October 2013

Les phosphures de métaux de transition nanométriques trouvent de nombreuses applications, notamment en catalyse hétérogène. Les silices mésoporeuses organisées (SMO) de type SBA-15, grâce à leurs paramètres physico-chimiques ajustables (surface spécifique, taille de pores, épaisseur de parois, etc.) et la reproductibilité de leurs synthèses, sont des supports de nanoparticules (NPs) de choix. Dans ce contexte, l'objectif de cette thèse est de synthétiser des NPs de phosphure de cobalt dans les pores de matrices de type SBA-15 à partir de clusters organométalliques comme uniques précurseurs. Dans une première partie, nous étudions le comportement de trois clusters contenant un ou plusieurs ligands phosphorés à haute température. Ceux-ci présentent des rapports Co/P différents, ce qui a un impact direct sur la phase phosphure obtenue après activation. Nous suivons également l'influence de l'atmosphère et de la température sur les phases formées lors du traitement thermique. Pour contrôler la taille et la polydispersité des NPs étudiées, nous avons imprégné le cluster précurseur [Co4(CO)10(µ-NH(PPh2)2)] dans des SMO de type SBA-15. L'atmosphère et la température choisies pour le traitement thermique influent sur la phase obtenue, comme précédemment, mais les conditions ne sont pas identiques. De plus, des phases parasites ferromagnétiques sont formées et des lavages à l'acide chlorhydrique concentré sont nécessaires pour s'en affranchir. Enfin, la préparation de grandes quantités de produit (transfert d'échelle) requiert l'utilisation d'un volume contrôlé lors du traitement thermique, pour assurer une homogénéité dans l'échantillon. / Nanosized transition metal phosphides find applications in various fields, including heterogeneous catalysis. Ordered mesoporous silica (OMS) such as SBA-15 are supports of choice for nanoparticles (NPs), since they feature adjustable microstructural parameters (specific surface area, pore size, wall thickness, etc.) and reproducible synthesis conditions. In this context, the goal of this PhD work is to synthesize cobalt phosphide NPs within the pores of SBA-15-type OMS, starting from organometallic clusters as single-source precursors. First, we study the behavior of three organometallic clusters bearing one or more phosphine-based ligands at high temperatures. Depending on the initial Co/P ratio, those clusters afford different phosphide phases. We also monitored the influence of the atmosphere and the temperature during the thermal treatment on the phases obtained. To control size and polydispersity of the NPs, we impregnated the cluster precursor [Co4(CO)10(µ-NH(PPh2)2)] in SBA-15-type OMS. As in the previous case, atmosphere and temperature influence the obtained phase, but the conditions are different. Moreover, ferromagnetic impurities are formed and it is necessary to wash the samples with concentrated hydrochloric acid to remove them. Finally, larger quantities of product can be prepared (scale-up) but the volume of sample thermally treated at once needs to be controlled precisely to ensure homogeneity of the final product.

Clusters organométalliques

Silice mésoporeuse organisée

Imprégnation

Traitement thermique

Nanoparticules

Phosphures de cobalt

Magnétisme

Organometallic clusters

Ordered mesoporous silica

Impregnation

Thermal treatment

Nanoparticles

Cobalt phosphides

Magnetism