Read article: Local twist angles in graphene come into view
Scanning microwave impedance microscopy technique could help scientists better understand materials like twisted bilayer graphene
Read article: Sticky UV-sensitive tape makes 2D material transfers easier
New technique could help integrate materials such as graphene into real-world devices
Read article: Heavy fermions appear in a layered intermetallic crystal
New two-dimensional compound could be used to study interactions that produce unconventional superconductivity and related quantum phenomena
Read article: Snapshot of noble gas atoms emerges from within a graphene sandwich
Nanoclusters of krypton and xenon directly imaged at room temperature for the first time thanks to confining layers of graphene
Read article: Graphene-based semiconductor has a useful bandgap and high electron mobility
Epigraphene could boost the performance of electronic devices
Read article: Giant skyrmion topological Hall effect appears in a two-dimensional ferromagnetic crystal at room temperature
New finding could prove useful for developing 2D topological and spintronic devices, such as racetrack memory, logic gates and spin nano-oscillators
Read article: Rare electronic states appear in five-layer graphene
Multiferroicity could be used to design ultralow power, high-capacity and high-speed data storage devices for classical and quantum computing
Read article: Two-dimensional electride material makes a promising superconductor
A zero-dimensional electride state, not "excess" electrons, is responsible for superconductivity in aluminium hydride
Read article: Graphene ribbons advance twistronics
A new technique allows for much better control of twist angle and strain in layered two-dimensional materials
Read article: Exciton–polaritons enhance magneto-optical responses in van der Waals crystals
Polariton energies are highly tunable using external magnetic fields and magnons
