Litcius/Paper detail

Superatomic Three-Center Bond in a Tri-Icosahedral Au<sub>36</sub>Ag<sub>2</sub>(SR)<sub>18</sub> Cluster: Analogue of 3c-2e Bond in Molecules

Chang Xu, Yichun Zhou, Lili Shi, Longjiu Cheng

2022The Journal of Physical Chemistry Letters13 citationsDOI

Abstract

Probing the nature of electronic stability for ligand-protected gold clusters is important in gold chemistry. A thermally stable Au36Ag2(SR)18 nanocluster was synthesized recently. It has a D3h tri-icosahedral [Au30Ag2]12+ core with 20 valence electrons, which does not follow the magic number of gold superatoms. Herein, we propose a superatomic three-center bond to unveil its electronic stability. The [Au30Ag2]12+ core is viewed as a union of three face-fused superatoms, and chemical bonding analysis suggests a three-superatom-center two-electron (3sc-2e) bond for the octet rule of each superatom, which mimics the bonding framework of the D3h O32– molecule. Moreover, a liganded tri-icosahedral [Au27Pt3Ag2]11+ core with 18 valence electrons is predicted, and three 2sc-2e bonds are formed between each of two superatoms to satisfy the octet rule (analogue of D3h O3), indicating the flexibility of superatomic bonding. Such a superatomic three-center bond extends the community of superatomic bonding and gives a new perspective for superatom assembling.

Topics & Concepts

SuperatomIcosahedral symmetryChemistryChemical bondDelocalized electronValence electronCluster (spacecraft)Valence (chemistry)CrystallographyMoleculeTriple bondBond energyElectronic structureChemical physicsAtomic physicsElectronComputational chemistryDouble bondPhysicsNuclear physicsComputer scienceOrganic chemistryProgramming languagePolymer chemistryNanocluster Synthesis and ApplicationsAdvanced Nanomaterials in CatalysisPharmacological Effects and Toxicity Studies
Superatomic Three-Center Bond in a Tri-Icosahedral Au<sub>36</sub>Ag<sub>2</sub>(SR)<sub>18</sub> Cluster: Analogue of 3c-2e Bond in Molecules | Litcius