Issue 24, 2024

Topological phases, local magnetic moments, and spin polarization triggered by C558-line defects in armchair graphene nanoribbons

Abstract

The topological and magnetic properties induced by topological defects in graphene have attracted attention. Here, we study a novel topological defect structure for graphene nanoribbons interspersed with C558-line defects along the armchair boundary, which possesses topological properties and is tritopic. Using strain engineering to regulate the magnitude of hopping at defects, the position of the energy level can be easily changed to achieve a topological phase transition. We also discuss the local magnetic moment and the ferromagnetic ground state in the context of line defects. This leads to spin polarization of the whole system. Finally, when C558 graphene nanoribbons are controlled by a nonlocal exchange magnetic field, spin-polarized quantum conductivity occurs near the Fermi level. Consequently, spin filtering can be achieved by varying the incident energy of the electrons. Our results provide new insights into realizing topological and spin electronics in low-dimensional quantum devices.

Graphical abstract: Topological phases, local magnetic moments, and spin polarization triggered by C558-line defects in armchair graphene nanoribbons

Supplementary files

Article information

Article type
Paper
Submitted
08 Feb 2024
Accepted
20 May 2024
First published
06 Jun 2024

Phys. Chem. Chem. Phys., 2024,26, 17075-17082

Topological phases, local magnetic moments, and spin polarization triggered by C558-line defects in armchair graphene nanoribbons

N. Yang, W. Guo, H. Yang, Z. Huang and J. Zhang, Phys. Chem. Chem. Phys., 2024, 26, 17075 DOI: 10.1039/D4CP00585F

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