Structural Evolution of Small-Sized Phosphorus-Doped Boron Clusters: A Half-Sandwich-Structured PB15 Cluster
Danyu Wang, Yueju Yang, Shixiong Li, Deliang Chen

TL;DR
This study explores the structural changes and stability of phosphorus-doped boron clusters, revealing unique shapes and electronic properties that could guide future experiments.
Contribution
The discovery of a half-sandwich-like structure in PB15 and its stability due to electronic properties is a novel finding.
Findings
PB15 neutral cluster has a half-sandwich-like structure with high stability.
PBn− clusters (n = 3–17) mostly adopt planar or quasi-planar structures.
Photoelectron spectra of PBn− clusters show distinct peaks aiding future identification.
Abstract
The present study is a theoretical investigation into the structural evolution, electronic properties, and photoelectron spectra of phosphorus-doped boron clusters PBn0/− (n = 3–17). The results of this study revealed that the lowest energy structures of PBn− (n = 3–17) clusters, except for PB17−, exhibit planar or quasi-planar structures. The lowest energy structures of PBn (n = 3–17), with the exceptions of PB7, PB9, and PB15, are planar or quasi-planar. The ground state of PB7 has an umbrella-shaped structure, with C6V symmetry. Interestingly, the neutral cluster PB15 has a half-sandwich-like structure, in which the P atom is attached to three B atoms at one end of the sandwich, exhibiting excellent relative and chemical stability due to its higher second-order energy difference and larger HOMO–LUMO energy gap of 4.31 eV. Subsequently, adaptive natural density partitioning (AdNDP)…
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Taxonomy
TopicsBoron and Carbon Nanomaterials Research · Boron Compounds in Chemistry · MXene and MAX Phase Materials
