Fanny Schweyer-Tihay scite author profile

Fanny Schweyer-Tihay

2Publications

48Citation Statements Received

104Citation Statements Given

How they've been cited

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128

Affiliations

Laboratoire de Chimie de Coordination, French National Centre for Scientific Research, University of Upper Alsace

Publications

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Synthesis and Characterization of Supported Co₂P Nanoparticles by Grafting of Molecular Clusters into Mesoporous Silica Matrixes

et al. 2002

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High-quality Co2P nanoparticles have been obtained from diphosphine-substituted molecular cobalt clusters anchored into an inorganic matrix. The synthesis was followed stepwise using a wide panel of analytic techniques. The required functionalization of an ordered mesoporous silica matrix of the type SBA-15 was achieved by covalent attachment of the alkoxysilyl-substituted short-bite diphosphine ligand (Ph2P)2N(CH2)3Si(OMe)3. Anchoring of the cluster [Co4(CO)10(μ-dppa)] (dppa = (Ph2P)2NH) led to an organometallic hybrid mesoporous silica whose thermal treatment led to pure nanocrystalline Co2P particles. Compared with the particles obtained in a silica xerogel, those synthesized into the SAB-15 matrix were the most regular in spatial repartition, size, and shape.

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On the nature of metallic nanoparticles obtained from molecular Co₃Ru–carbonyl clusters in mesoporous silica matrices

Schweyer-Tihay

Estournès

Braunstein

et al. 2006

Phys. Chem. Chem. Phys.

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We report on the impregnation of THF solutions of the low-valent heterometallic cluster NEt(4)[Co(3)Ru(CO)(12)] into two mesoporous silica matrices, amorphous xerogels and ordered MCM-41, and a study of its thermal decomposition into metallic nanoparticles by X-ray diffraction, transmission electron microscopy and in situ magnetic measurements under controlled atmospheres. The decomposition of the cluster was monitored as a function of temperature by examining the chemical composition of the particles, their size distributions and their structures as well as their magnetic properties. Treatment under inert atmosphere (i.e. argon) at temperatures below 200 degrees C resulted in the formation of segregated spherical particles of hcp-ruthenium (2.3 +/- 1.0 nm) and hcp-cobalt (3.1 +/- 0.9 nm). The latter is transformed to fcc-cobalt (3.2 +/- 1.0 nm) above 270 degrees C. At higher temperatures, Co-Ru alloying takes place and the Ru content of the particles increases with increasing temperature to reach the nominal composition of the molecular precursor, Co(3)Ru. The particles are more evenly distributed in the MCM-41 framework compared to the disordered xerogel and also show a narrower size distribution. Owing to the different magnetic anisotropy of hcp- and fcc-cobalt, which results in different blocking temperatures, we were able to clearly identify the products formed at the early stages of the thermal decomposition procedure.

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