Out-of-Plane Dielectric Susceptibility of Graphene in Twistronic and Bernal Bilayers.
Sergey SlizovskiyAitor Garcia-RuizAlexey I BerdyuginNa XinTakashi TaniguchiKenji WatanabeAndre K GeimNeil D DrummondVladimir I Fal'koPublished in: Nano letters (2021)
We describe how the out-of-plane dielectric polarizability of monolayer graphene influences the electrostatics of bilayer graphene-both Bernal (BLG) and twisted (tBLG). We compare the polarizability value computed using density functional theory with the output from previously published experimental data on the electrostatically controlled interlayer asymmetry potential in BLG and data on the on-layer density distribution in tBLG. We show that monolayers in tBLG are described well by polarizability αexp = 10.8 Å3 and effective out-of-plane dielectric susceptibility ϵz = 2.5, including their on-layer electron density distribution at zero magnetic field and the interlayer Landau level pinning at quantizing magnetic fields.
Keyphrases
- density functional theory
- electronic health record
- solar cells
- room temperature
- molecular dynamics
- carbon nanotubes
- big data
- walled carbon nanotubes
- molecular dynamics simulations
- magnetic resonance imaging
- systematic review
- computed tomography
- artificial intelligence
- mass spectrometry
- diffusion weighted imaging
- deep learning
- human health
- ionic liquid