Energy loss spectrum and surface modes of two-dimensional black phosphorus

Abstract: The structural features and the electron energy loss spectrum of black phosphorus (BP) have been experimentally analyzed and they are discussed based on a theoretical calculation. The low-energy loss spectra of typical samples reveal that the emerging high-mobility two-dimensional material BP often exhibits both bulk and surface plasmon modes. The surface modes of BP are strongly thickness dependent. Electrodynamic analysis indicates that the Fuchs-Kliewer-like surface plasmon modes consist of two branches wit… Show more

“…As the number of layers decreases to nine and fewer, the features of surface plasmon losses are dampened and modified because of coupling of bottom and top surface plasmon oscillations and reshaping of the surface plasmon dispersion behavior . Similar in nature, changes in surface plasmon dispersion in a few-layer BP have been reported. − Additional sets of spectra with higher-energy resolution were also acquired in the energy-loss region below 19 eV (Figure c, on the right) to better highlight the changes discussed.…”

Layer Dependence of Dielectric Response and Water-Enhanced Ambient Degradation of Highly Anisotropic Black As

“…As the number of layers decreases to nine and fewer, the features of surface plasmon losses are dampened and modified because of coupling of bottom and top surface plasmon oscillations and reshaping of the surface plasmon dispersion behavior . Similar in nature, changes in surface plasmon dispersion in a few-layer BP have been reported. − Additional sets of spectra with higher-energy resolution were also acquired in the energy-loss region below 19 eV (Figure c, on the right) to better highlight the changes discussed.…”

Layer Dependence of Dielectric Response and Water-Enhanced Ambient Degradation of Highly Anisotropic Black As