Add to ORKGChemical bonding interactions are the main driving force for the formation of molecules and materials from atoms. The two-electron/multicenter pancake pi-pi bonding found in phenalenyl (PLY, 1) radical g-dimers is intriguing due to its unconventional nature of covalent bonding for molecular aggregations and its propensity to induce unique optical, electronic, and magnetic properties. By using high-level quantum chemistry calculations, we show that the B- or N-doped PLYs (2 and 4), usually considered closed-shell and therefore trifling, can be rendered open-shell singlet by proper edge substitutions (3 and 5). The resulting two unpaired valence electrons on each molecular unit contribute to the formation of a genuine pancake-shaped 4e/all-si...
We compare aromatic pi interactions with aliphatic pi interactions of double- and triple-bonded pi s...
Density functional (DFT) studies and hybrid QM/MM-DFT calculations demonstrate the importance of pi-...
International audienceEngineering atomic-scale structures allows great manipulation of physical prop...
Pancake π-stacking produces shorter contacts than van der Waals bonding but it has strongly preferre...
From local mode stretching force constants and topological electron density analysis, computed at ei...
Phenalenyl, an open-shell neutral radical that can form both π-stacked dimers and conducting molecul...
Phenalenyl is a radical nanographene with a triangular shape hosting an unpaired electron with spin ...
[[abstract]]The heavy dipnictenes (REER, where E = P, As, Sb, and Bi with the substituent R) have es...
Phenalenyl and a wide variety of its derivatives form stable radicals, which often associate in vari...
The concept of a double-bonded pancake bonding mechanism is introduced to explain the extremely shor...
Phenalenyl is a radical nanographene with a triangular shape hosting an unpaired electron with spin ...
The supramolecular organization of modified thiophenes resulting from N⋯I halogen bonding (XB) has b...
A computational study of the aromatic characteristics of phenalenyl (PLY) upon replacement of the ce...
Density functional (DFT) studies and hybrid QM/MM-DFT calculations demonstrate the importance of pi-...
We examine the bonding possibilities of the bis(phenalenyl) MP2 sandwich complexes of the divalent m...
We compare aromatic pi interactions with aliphatic pi interactions of double- and triple-bonded pi s...
Density functional (DFT) studies and hybrid QM/MM-DFT calculations demonstrate the importance of pi-...
International audienceEngineering atomic-scale structures allows great manipulation of physical prop...
Pancake π-stacking produces shorter contacts than van der Waals bonding but it has strongly preferre...
From local mode stretching force constants and topological electron density analysis, computed at ei...
Phenalenyl, an open-shell neutral radical that can form both π-stacked dimers and conducting molecul...
Phenalenyl is a radical nanographene with a triangular shape hosting an unpaired electron with spin ...
[[abstract]]The heavy dipnictenes (REER, where E = P, As, Sb, and Bi with the substituent R) have es...
Phenalenyl and a wide variety of its derivatives form stable radicals, which often associate in vari...
The concept of a double-bonded pancake bonding mechanism is introduced to explain the extremely shor...
Phenalenyl is a radical nanographene with a triangular shape hosting an unpaired electron with spin ...
The supramolecular organization of modified thiophenes resulting from N⋯I halogen bonding (XB) has b...
A computational study of the aromatic characteristics of phenalenyl (PLY) upon replacement of the ce...
Density functional (DFT) studies and hybrid QM/MM-DFT calculations demonstrate the importance of pi-...
We examine the bonding possibilities of the bis(phenalenyl) MP2 sandwich complexes of the divalent m...
We compare aromatic pi interactions with aliphatic pi interactions of double- and triple-bonded pi s...
Density functional (DFT) studies and hybrid QM/MM-DFT calculations demonstrate the importance of pi-...
International audienceEngineering atomic-scale structures allows great manipulation of physical prop...