Laura Crociani scite author profile

Magnesium borohydride, Mg(BH4)2, a long-sought candidate for efficient hydrogen storage chemisorption technology, has been obtained in a pure and crystalline form by two new synthetic routes in a hydrocarbon solvent. A first synthetic approach involves a metathetical reaction between organometallic magnesium compounds; a second route consists of an insertion reaction of BH3 species, released from BH3.S(CH3)2, into the Mg-C bonds of MgR2, with complete replacement of R groups with BH4 groups. Both methods, based on commercially available reagents, afford identical, pure, polycrystalline materials, identified by X-ray diffraction as the so-called low-temperature hexagonal form of Mg(BH4)2, stable below 180 degrees C, recently shown to possess a complex, unpredictable, crystal structure.

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Synthesis, structure and reactivity of homobimetallic Rh(I) and Ir(I) complexes of s- and as-indacene-diide

Ceccon

Bisello

Crociani

et al. 2000

Journal of Organometallic Chemistry

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Metal–Metal Electronic Coupling in syn and anti Stereoisomers of Mixed‐Valent (FeCp)₂‐, (RhL₂)₂‐, and (FeCp)(RhL₂)‐as‐Indacenediide Ions

Santi

Orian

Durante

et al. 2007

Chemistry A European J

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The extent of metal-metal electronic coupling was quantified for a series of syn and anti stereoisomers of (FeCp)(2)-, (RhL(2))(2)- and (FeCp)(RhL(2))- (L(2)=1,5-cyclooctadiene (cod), L=CO) as-indacenediide mixed-valent ions by spectroelectrochemical and DFT studies. The effect of the syn/anti orientation of the metal units with respect to the planar aromatic ligand indicates that electron transfer occurs through the bridge rather than through space. The nature of the metal was found to be crucial: while homobimetallic diiron species are localised valence-trapped ions (Class II), the dirhodium analogues are almost delocalised mixed-valent ions (borderline and Class III). Finally, despite their redox asymmetry, even in the heterobimetallic iron-rhodium as-indacenediide complexes, strong metal-metal coupling is present. In fact, oxidation of the iron centre is accompanied by electron transfer from rhodium to iron and formation of a reactive 17-electron rhodium site. syn and anti Fe-Rh as-indacenediide complexes are rare examples of heterobimetallic systems which can be classified as borderline Class II/Class III species.

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Tuning the Electronic Communication in Heterobimetallic Mixed‐Valence Ions of (1‐Ferrocenyl)‐ and (2‐Ferrocenyl)indenyl Rhodium Isomers

Santi

Orian

Durante

et al. 2007

Chemistry A European J

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A series of heterobimetallic complexes of general structure [RhL(2){eta(5)-(2-ferrocenyl)indenyl}] (L(2)=cod, nbd, L=CO; cod=cyclooctadiene; nbd=norbornadiene) has been synthesised with the aim of tuning the metal-metal interaction in their mixed-valence ions generated both by chemical and electrochemical oxidation, and the results are compared with those obtained for [RhL(2){eta(5)-(1-ferrocenyl)indenyl}] isomers. Crystallographic studies and DFT calculations provide a detailed description of the structural and electronic features of these complexes evidencing a significant difference in the extent of planarity of the flexible bridging ligand between the 1- and 2-ferrocenyl isomers. Independent experimental probes, in particular the potential splitting in the cyclic voltammograms and the IT bands in the near-IR spectra, are rationalised in the framework of Marcus-Hush theory and at quantum chemistry level by DFT and TD-DFT methods. These methods allow us to establish a trend based on the magnitude of iron-rhodium electronic coupling H(ab) ranging from valence trapped to almost delocalised ions. The quasi planar bridge and the olefin ancillary ligands make [Rh(nbd){eta(5)-(2-ferrocenyl)indenyl}](+) and [Rh(cod){eta(5)-(2-ferrocenyl)indenyl}](+) rare examples of heterobimetallic systems which can be classified as borderline Class II/Class III species.

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CVD of MgO Thin Films from Bis(methylcyclopentadienyl) Magnesium

Carta¹,

Habra²,

Crociani³

et al. 2007

Chemical Vapor Deposition

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Thin films of MgO are grown by CVD, with a high growth rate, on Si(001) and quartz substrates in the temperature range 400-550°C, using bis(methylcyclopentadienyl)magnesium [Mg(CH 3 -C 5 H 4 ) 2 ] as the precursor. The films obtained are investigated by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), atomic force microscopy (AFM), and optical absorption, in order to investigate the interrelations between film properties and processing conditions. Cubic phase MgO (periclase) films, characterized by a low carbon contamination and a granular surface morphology, are obtained.

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Laura Crociani

Facile High-Yield Synthesis of Pure, Crystalline Mg(BH₄)₂

Synthesis, structure and reactivity of homobimetallic Rh(I) and Ir(I) complexes of s- and as-indacene-diide

Metal–Metal Electronic Coupling in syn and anti Stereoisomers of Mixed‐Valent (FeCp)₂‐, (RhL₂)₂‐, and (FeCp)(RhL₂)‐as‐Indacenediide Ions

Tuning the Electronic Communication in Heterobimetallic Mixed‐Valence Ions of (1‐Ferrocenyl)‐ and (2‐Ferrocenyl)indenyl Rhodium Isomers

CVD of MgO Thin Films from Bis(methylcyclopentadienyl) Magnesium

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About

Laura Crociani

Facile High-Yield Synthesis of Pure, Crystalline Mg(BH4)2

Synthesis, structure and reactivity of homobimetallic Rh(I) and Ir(I) complexes of s- and as-indacene-diide

Metal–Metal Electronic Coupling in syn and anti Stereoisomers of Mixed‐Valent (FeCp)2‐, (RhL2)2‐, and (FeCp)(RhL2)‐as‐Indacenediide Ions

Tuning the Electronic Communication in Heterobimetallic Mixed‐Valence Ions of (1‐Ferrocenyl)‐ and (2‐Ferrocenyl)indenyl Rhodium Isomers

CVD of MgO Thin Films from Bis(methylcyclopentadienyl) Magnesium

Contact Info

Product

Resources

About

Facile High-Yield Synthesis of Pure, Crystalline Mg(BH₄)₂

Metal–Metal Electronic Coupling in syn and anti Stereoisomers of Mixed‐Valent (FeCp)₂‐, (RhL₂)₂‐, and (FeCp)(RhL₂)‐as‐Indacenediide Ions