The future of 2D spintronics
Tag: Two-dimensional materials
Resolving polarization switching pathways of sliding ferroelectricity in trilayer 3R-MoS2
Sliding ferroelectricity, an emerging type of hysteretic behaviour with strong potential for memory-related applications, involves dynamically swit…
Spin–valley protected Kramers pair in bilayer graphene
The intrinsic valley degree of freedom makes bilayer graphene (BLG) a unique platform for semiconductor qubits. The single-carrier quantum dot (QD)…
Switching on and off the spin polarization of the conduction band in antiferromagnetic bilayer transistors
Antiferromagnetic conductors with suitably broken spatial symmetries host spin-polarized bands, which lead to transport phenomena commonly observed…
Low-power 2D gate-all-around logics via epitaxial monolithic 3D integration
Innovations in device architectures and materials promote transistor miniaturization for improved performance, energy efficiency and integration de…
Controlling Coulomb correlations and fine structure of quasi-one-dimensional excitons by magnetic order
Many surprising properties of quantum materials result from Coulomb correlations defining electronic quasiparticles and their interaction chains. I…
Magnetically confined surface and bulk excitons in a layered antiferromagnet
The discovery of two-dimensional van der Waals magnets has greatly expanded our ability to create and control nanoscale quantum phases. A unique ca…
Graphene rolls with tunable chirality
Creating chirality in achiral graphene and other two-dimensional materials has attracted broad scientific interest due to their potential applicati…