Add to ORKGNanoribbons - nanometer wide strips of a two-dimensional material - are a unique system in condensed matter physics. They combine the exotic electronic structures of low-dimensional materials with an enhanced number of exposed edges, where phenomena including ultralong spin coherence times, quantum confinement and topologically protected states can emerge. An exciting prospect for this new material concept is the potential for both a tunable semiconducting electronic structure and magnetism along the nanoribbon edge. This combination of magnetism and semiconducting properties is the first step in unlocking spin-based electronics such as non-volatile transistors, a route to low-energy computing, and has thus far typically only been observed ...
Phosphorene is a mono-elemental, two-dimensional (2D) substance with outstanding, highly directional...
Nanographenes with zigzag edges are predicted to manifest non-trivial π-magnetism resulting from the...
Mean-field theories have since long predicted edge magnetism in graphene nanoribbons, where the orde...
We have investigated the magnetic properties of phosphorene nanoribbons (PNRs) using the first-princ...
Using first-principles studies, we investigated the width-dependent magnetic properties of armchair ...
The miniaturisation of semiconductors is running into physical limitations. In order to further enha...
Graphene, a single-layer network of carbon atoms, has outstanding electrical and mechanical properti...
Graphene, a single-layer network of carbon atoms, shows outstanding electrical and mechanical proper...
"The electronic structure and spin magnetism for few-layer-graphene nanoribbons synthesized by chemi...
Edge magnetism in zigzag transition metal dichalcogenide nanoribbons is studied using a three-band t...
et al.The formation and control of a room-temperature magnetic order in two-dimensional (2D) materia...
Phosphorene is a mono-elemental, two-dimensional (2D) substance with outstanding, highly directional...
The pursuit of controlled magnetism in semiconductors has been a persisting goal in condensed matter...
Abstract The structural, electrical, and magnetic properties of armchair black phosphorene nanoribbo...
We study direct and indirect excitons in Rydberg states in phosphorene monolayers, bilayer and van d...
Phosphorene is a mono-elemental, two-dimensional (2D) substance with outstanding, highly directional...
Nanographenes with zigzag edges are predicted to manifest non-trivial π-magnetism resulting from the...
Mean-field theories have since long predicted edge magnetism in graphene nanoribbons, where the orde...
We have investigated the magnetic properties of phosphorene nanoribbons (PNRs) using the first-princ...
Using first-principles studies, we investigated the width-dependent magnetic properties of armchair ...
The miniaturisation of semiconductors is running into physical limitations. In order to further enha...
Graphene, a single-layer network of carbon atoms, has outstanding electrical and mechanical properti...
Graphene, a single-layer network of carbon atoms, shows outstanding electrical and mechanical proper...
"The electronic structure and spin magnetism for few-layer-graphene nanoribbons synthesized by chemi...
Edge magnetism in zigzag transition metal dichalcogenide nanoribbons is studied using a three-band t...
et al.The formation and control of a room-temperature magnetic order in two-dimensional (2D) materia...
Phosphorene is a mono-elemental, two-dimensional (2D) substance with outstanding, highly directional...
The pursuit of controlled magnetism in semiconductors has been a persisting goal in condensed matter...
Abstract The structural, electrical, and magnetic properties of armchair black phosphorene nanoribbo...
We study direct and indirect excitons in Rydberg states in phosphorene monolayers, bilayer and van d...
Phosphorene is a mono-elemental, two-dimensional (2D) substance with outstanding, highly directional...
Nanographenes with zigzag edges are predicted to manifest non-trivial π-magnetism resulting from the...
Mean-field theories have since long predicted edge magnetism in graphene nanoribbons, where the orde...