Litcius/Paper detail

Origin of metallic ferroelectricity in group-V monolayer black phosphorus

Wen Xu, Ya-Ping Shao, Jiu‐Long Wang, Jun‐Ding Zheng, Wen‐Yi Tong, Chun‐Gang Duan

2024Physical review. B./Physical review. B12 citationsDOI

Abstract

Recent research has shown that monolayer black phosphorus (BP) can be metallic while sustaining spontaneous polarization. Using density-functional calculations and mean-field theory, we perform a systematic study on the origin of the metallic ferroelectricity in monolayer BP which is composed of only one element with a strong covalent bond. We find that, in contrast to ionic compounds, metallic monolayer BP exhibits lattice deformation between adjacent cells due to the covalent bond. This benefits the survival of spontaneous polarization despite the fact that the long-range Coulomb interactions between dipoles are screened by itinerant electrons. Through the orbital selective external potential method, we reveal that the strength of $s{p}^{3}$ hybridization of monolayer BP significantly impacts such lattice distortion and therefore the ferroelectricity. These findings significantly enrich our understanding of metallic polarization and provide insights to help discover novel ferroelectric materials.

Topics & Concepts

MonolayerFerroelectricityCovalent bondCondensed matter physicsIonic bondingDipolePolarization (electrochemistry)Orbital hybridisationMetalMaterials scienceChemical physicsDensity functional theoryIonic radiusCrystallographyElectronChemistryNanotechnologyComputational chemistryIonAtomic orbitalPhysicsMolecular orbital theoryDielectricOptoelectronicsQuantum mechanicsOrganic chemistryPhysical chemistryMetallurgy2D Materials and ApplicationsFerroelectric and Piezoelectric MaterialsMultiferroics and related materials
Origin of metallic ferroelectricity in group-V monolayer black phosphorus | Litcius