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Electronic Control of the Position of the Pb Atom on the Surface of B<sub>8</sub> Borozene in the PbB<sub>8</sub> Cluster

Weijia Chen, Hyun Wook Choi, Joseph Cavanagh, Dao-Fu Yuan, Lai‐Sheng Wang

2024The Journal of Physical Chemistry A10 citationsDOI

Abstract

Spontaneous symmetry-breaking is common in chemical and physical systems. Here, we show that by adding an electron to the C 7 v PbB 8 cluster, which consists of a planar B 8 disk with the Pb atom situated along the C 7 axis, the Pb atom spontaneously moves to the off-axis position in the PbB 8 – anion. Photoelectron spectroscopy of PbB 8 – reveals a broad ground-state transition and a large energy gap, suggesting a highly stable closed-shell PbB 8 borozene complex and a significant geometry change upon electron detachment. Quantum chemistry calculations indicate that the lowest unoccupied molecular orbital of the C 7 v PbB 8 cluster is a degenerate π orbital mainly consisting of the Pb 6p x and 6p y atomic orbitals. Occupation of one of the 6p orbitals spontaneously break the C 7 v symmetry in the anion due to the Jahn–Teller effect. The large amplitude of the position change of Pb in PbB 8 – relative to PbB 8 is surprising owing to bonding interactions between the Pb 6p orbital with the π orbital of the B 8 borozene.

Topics & Concepts

Atomic orbitalAtom (system on chip)Cluster (spacecraft)Molecular orbitalAtomic physicsChemistryIonSymmetry (geometry)ElectronCrystallographyMolecular physicsPhysicsMoleculeGeometryQuantum mechanicsProgramming languageEmbedded systemComputer scienceOrganic chemistryMathematicsBoron and Carbon Nanomaterials ResearchBoron Compounds in ChemistryMXene and MAX Phase Materials
Electronic Control of the Position of the Pb Atom on the Surface of B<sub>8</sub> Borozene in the PbB<sub>8</sub> Cluster | Litcius