Add to ORKGAromaticity is a fascinating concept that rationalizes the bonding of an intriguing class of organics. Suitably delocalized metal-metal bonds can stabilize a particular class of discrete trinuclear complexes that are the transition-metal counterparts of carbon-based aromatic compounds. However, experimental applications are still rare since in most cases their stability is limited. Our research group developed a simple synthetic method to obtain a family of bench-stable trinuclear clusters of palladium and platinum with a straightforward synthetic route. These noble-metal analogues of the cyclopropenyl cation show a great versatility since they found applications in both catalysis and coordination chemistry. They proved to be able to semi...
International audienceHighly symmetric [Pd3]+ clusters that present delocalized metal–metal bonds ca...
Metallabenzenes are a class of molecules in which a CH unit in benzene is replaced by a functionaliz...
Amidst the general bonding patterns designed to explain stability aromaticity has leading role. Goin...
We present that cationic rings could act as donor ligands thanks to suitably delocalized metal-metal...
This manuscript describes an overview on the literature detailing the observation of trinuclear comp...
The first C-3-symmetric 44-core-valence-electron triangular palladium clusters, [{(SAr)(PAr3)Pd}(3)]...
Trinuclear all-metal aromatic clusters are an original class of molecules with a cyclic and planar m...
International audienceA simple synthetic method allows the one-pot assembly of C-3-symmetric, 44-cor...
Recent developments on dual palladium/norbornene catalytic reactions led to one-pot synthesis of com...
Suitably delocalized metal–metal bonds can stabilize a particular class of discrete trinuclear compl...
A simple catalytic method involving all-metal aromatic frameworks as precatalysts ensures an efficie...
Metalloaromatic species are unique and important both experimentally and theoretically. Significant ...
Following an ongoing interest in the study of transition metal complexes with exotic bonding network...
The work details a mechanistic study based on density functional theory modeling on the cycloisomeri...
Highly symmetric all-metal aromatic Pd3+ complexes can catalyze the cycloisomerization of terminal 1...
International audienceHighly symmetric [Pd3]+ clusters that present delocalized metal–metal bonds ca...
Metallabenzenes are a class of molecules in which a CH unit in benzene is replaced by a functionaliz...
Amidst the general bonding patterns designed to explain stability aromaticity has leading role. Goin...
We present that cationic rings could act as donor ligands thanks to suitably delocalized metal-metal...
This manuscript describes an overview on the literature detailing the observation of trinuclear comp...
The first C-3-symmetric 44-core-valence-electron triangular palladium clusters, [{(SAr)(PAr3)Pd}(3)]...
Trinuclear all-metal aromatic clusters are an original class of molecules with a cyclic and planar m...
International audienceA simple synthetic method allows the one-pot assembly of C-3-symmetric, 44-cor...
Recent developments on dual palladium/norbornene catalytic reactions led to one-pot synthesis of com...
Suitably delocalized metal–metal bonds can stabilize a particular class of discrete trinuclear compl...
A simple catalytic method involving all-metal aromatic frameworks as precatalysts ensures an efficie...
Metalloaromatic species are unique and important both experimentally and theoretically. Significant ...
Following an ongoing interest in the study of transition metal complexes with exotic bonding network...
The work details a mechanistic study based on density functional theory modeling on the cycloisomeri...
Highly symmetric all-metal aromatic Pd3+ complexes can catalyze the cycloisomerization of terminal 1...
International audienceHighly symmetric [Pd3]+ clusters that present delocalized metal–metal bonds ca...
Metallabenzenes are a class of molecules in which a CH unit in benzene is replaced by a functionaliz...
Amidst the general bonding patterns designed to explain stability aromaticity has leading role. Goin...