Issue 9, 2024

Layer-coupled corner states in two-dimensional topological multiferroics

Abstract

The structural diversity and controllability in two-dimensional (2D) materials offers an intriguing platform for exploring a wide range of topological phenomena. The layer degree of freedom, as a novel technique for material manipulation, requires further investigation regarding its association with topological states. Here, using first-principles calculations and a tight-binding model, we propose a novel mechanism that couples the second-order topological corner states with the layer degree of freedom. By analyzing the edge states, topological indices, and spectra of nanoflakes, we identify ferromagnetic H′–Co2XF2 (X = C, N) as 2D second-order topological insulators with intrinsic ferroelectricity. Moreover, the topological corner states strongly couple with the layer degree of freedom, and, remarkably, ferroelectricity provides a nonvolatile handle to manipulate the layer-polarized corner states. These findings open an avenue for the manipulation of second-order topological states and establish a bridge between ferroelectricity and nontrivial topology.

Graphical abstract: Layer-coupled corner states in two-dimensional topological multiferroics

Supplementary files

Article information

Article type
Communication
Submitted
10 Aug 2023
Accepted
22 Feb 2024
First published
23 Feb 2024

Mater. Horiz., 2024,11, 2242-2247

Layer-coupled corner states in two-dimensional topological multiferroics

R. Li, X. Zou, Y. Bai, Z. Chen, B. Huang, Y. Dai and C. Niu, Mater. Horiz., 2024, 11, 2242 DOI: 10.1039/D3MH01266B

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