Structural asymmetry in few-layer blue phosphorene

• Published in: Physics letters. A Vol. 426; p. 127877
• Main Authors: Song, M.R., Shi, H.L., Han, Q.Z., Yang, J., Ren, Y.H., Jiang, Z.T.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 28.02.2022
• Subjects: Blue phosphorene; Optical absorption; Semimetal; Strains; Symmetry breaking; Semimetal; Blue phosphorene; Strains; Optical absorption; Symmetry breaking
• ISSN: 0375-9601; 1873-2429
• DOI: 10.1016/j.physleta.2021.127877

•There appears structural asymmetry in few-layer blue phosphorene systems.•Serious changes in energy band structures can be induced by the structural asymmetry.•The structural asymmetry can make obvious effect on the optical absorption.•The influences of strains on the energy bands and optical absorption are explored. Blue phosphorus, composed of the same layers, is believed to be of the same thickness in each layer. Here we find that in few-layer blue phosphorene systems there always exists structural asymmetry in all layers, which is absent in few-layer graphene or other blue phosphorene systems. Critical switching in the profiles of layer thicknesses or interlayer distances is observed between layer numbers 12 and 13. Furthermore, we find the structural asymmetry can induce the metal-to-semimetal transition in bilayer blue phosphorene, and can change the optical absorption spectrums in entire energy scope. The symmetric semimetal band structure can be changed into the asymmetric one by external in-plane strains. Moreover, the original in-plane isotropy of the absorption spectrum for free bilayer blue phosphorene can be easily broken by applying x or y-direction compressive and tensile strains, while the 3-dimensional anisotropy will be strengthened by the in-plane strains. The structural asymmetry suggests an inevitable factor in accurately understanding the properties of blue phosphorene.