Potential-tuned magnetic switches and half-metallicity transition in zigzag graphene nanoribbons

• Published in: New journal of physics Vol. 25; no. 12; pp. 123019 - 123037
• Main Authors: Li, Weijian, Xiao, Shi-Chang, Sun, Da-Fei, Gong, Chang-De, Yu, Shun-Li, Zhou, Yuan
• Format: Journal Article
• Language: English
• Published: Bristol IOP Publishing 01.12.2023
• Subjects: Carbon; Controllability; Electrons; Ferromagnetism; Graphene; graphene nanoribbon; half-metallicity; Magnetic domains; Magnetic properties; magnetic switch; Magnetism; Metallicity; Nanoribbons; Nanostructure; Phase transitions; Physics; Room temperature; Simulation
• ISSN: 1367-2630; 1367-2630
• DOI: 10.1088/1367-2630/ad1071

Abstract Realizing controllable room-temperature ferromagnetism in carbon-based materials is one of recent prospects. The magnetism in graphene nanostructures reported previously is mostly localized by breaking the local sublattice imbalance. Here, we predict a robustly potential-tuned ferromagnetic domain lying between the inter-chain carbon atoms inside the zigzag graphene nanoribbons. We show that the effective zigzag edges provide the strong correlation background through narrowing the band width, while the internal Van Hove filling (VHF) provides the strong ferromagnetic background inherited from the bulk. The induced ferromagnetism exhibit interesting switching effect when the nominal VHF crosses the intra- and inter-chain region by tuning the potential drops. We further observe a robust half-metallicity transition from one spin channel to another within the same magnetic phase. These novel properties provide promising ways to manipulate the spin degree of freedom in graphene nanostructures.