Marcus Klahn scite author profile

The bonding nature of metallocene acetylene complexes Cp 2 M(η 2 -H 3 SiC 2 SiH 3 ) 1M and Cp 2 M(η 2 -HC 2 H) 1M 0 (M = Ti, Zr, Hf) was studied by density functional theory method. It is found that this acetylene complex has indeed a metallacyclopropene moiety with two in-plane M-C σ-bonds and one out-of-plane π-bond interacting with the metal center, resulting in the formation of a delocalized three-center and two-electron (3c-2e) system. Along with its delocalized out-of-plane bonding, this complex has been characterized as aromatic on the basis of the computed stabilizing energy and negative nucleus-independent chemical shifts (NICS). The aromatic stabilization increases from Ti to Zr and Hf, and this is because of the increased charge separation between the Cp 2 M fragment and the H 3 SiC 2 SiH 3 (also HC 2 H) unit. The decrease of the M-C bond length from Zr to Hf is attributed to the increased s character of both M and C hybridization of the M-C σ-bonds.

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Synthesis of Cp*₂Ti(OTf) and Its Reaction with Water

Kessler

Hansen

Hollmann

et al. 2011

Eur J Inorg Chem

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Cp*2Ti(OTf) (2) was prepared by oxidation of the known(alkyne)titanocene complex Cp*2Ti(η2‐Me3SiC2SiMe3) with Fe(OTf)3. This reaction is highly selective; formation of Cp*2Ti(OTf)2 by using an excess of the oxidizing agent was not observed. Complex 2 was treated with water to give Cp*2Ti(OH)(OTf) (5) and hydrogen gas. This reaction was monitored by GC and volumetric analysis. Complexes 2 and 5 were characterized by X‐ray crystallography and investigated by DFT analysis.

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Formation of high-molecular weight polyaminoborane by Fe hydride catalysed dehydrocoupling of methylamine borane

et al. 2017

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Hydrodefluorination of non-activated C–F bonds by diisobutyl-aluminiumhydride via the aluminium cation [i-Bu2Al]+

Klahn

Fischer

Spannenberg

et al. 2007

Tetrahedron Letters

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An Update on Recent Stoichiometric and Catalytic C–F Bond Cleavage Reactions by Lanthanide and Group 4 Transition-Metal Complexes

2012

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In organometallic chemistry numerous complexes are known to cleave activated and nonactivated C–F bonds of organic compounds. These reactions are either stoichiometric or catalytic and offer different possibilities for a wide range of synthetic and catalytic applications. This review attempts to summarize a selection of most important developments made since 1997 for C–F bond cleavages by lanthanide and group 4 transition-metal complexes.

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Marcus Klahn

Are Metallocene−Acetylene (M = Ti, Zr, Hf) Complexes Aromatic Metallacyclopropenes?

Synthesis of Cp*₂Ti(OTf) and Its Reaction with Water

Formation of high-molecular weight polyaminoborane by Fe hydride catalysed dehydrocoupling of methylamine borane

Hydrodefluorination of non-activated C–F bonds by diisobutyl-aluminiumhydride via the aluminium cation [i-Bu2Al]+

An Update on Recent Stoichiometric and Catalytic C–F Bond Cleavage Reactions by Lanthanide and Group 4 Transition-Metal Complexes

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Marcus Klahn

Are Metallocene−Acetylene (M = Ti, Zr, Hf) Complexes Aromatic Metallacyclopropenes?

Synthesis of Cp*2Ti(OTf) and Its Reaction with Water

Formation of high-molecular weight polyaminoborane by Fe hydride catalysed dehydrocoupling of methylamine borane

Hydrodefluorination of non-activated C–F bonds by diisobutyl-aluminiumhydride via the aluminium cation [i-Bu2Al]+

An Update on Recent Stoichiometric and Catalytic C–F Bond Cleavage Reactions by Lanthanide and Group 4 Transition-Metal Complexes

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Product

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Synthesis of Cp*₂Ti(OTf) and Its Reaction with Water