Spin-polarized two-dimensional electron/hole gases on LiCoO2 layers

Abstract

First-principles calculations show the formation of a 2D spin polarized electron (hole) gas on the Li (CoO2) terminated surfaces of finite slabs down to a monolayer of LiCoO2 in remarkable contrast with the bulk band structure stabilized by Li donating its electron to the CoO2 layer forming a Co-d-t2g6 insulator. By mapping the first-principles computational results to a minimal tight-binding models corresponding to a non-chiral 3D generalization of the quadripartite Su-Schriefer-Heeger (SSH4) model, we show that these surface states have topological origin.