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A field-effect MoS<Subscript>2</Subscript> transistor with a negative capacitor in its gate shows stable, hysteresis-free performance characterized by a sub-thermionic sub-threshold slope.
Quantum control on an isotopically enriched Si spin qubit is demonstrated with ultrahigh gate fidelities and long coherence times — even in the presence of sizeable charge noise.
The rectification ratio of a molecular junction made of a self-assembled monolayer of di-nuclear ruthenium-complex molecules can be varied by more than three orders of magnitude by controlling relative humidity.
The spin accumulation in graphene can be enhanced by a thermal gradient as a result of a thermoelectric spin voltage owing to an effective spin-dependent Seebeck coefficient.
Advanced nanoengineering of small-period AG lattices enables the observation of a vanishing density of states that suggests the presence of massless Dirac fermions.
Observation of an efficient out-of-plane energy transfer channel in van der Waals heterostructures, where charge carriers in graphene couple to hyperbolic phonon–polaritons on a picosecond timescale.
Electric polarization is induced in the binary rock salt layer of an ultrathin insulating heterostructure on a metal electrode, and its hysteretic reversal is demonstrated using a combination of atomically resolved scanning probe microscopies.
Highly efficient interlayer e–h pair multiplication process in two-dimensional TMD heterostructures leads to strong enhancement of the optoelectronic responsivity.
The deterministic nucleation of single skyrmions at a controlled position along multilayered magnetic racetracks is demonstrated by exploiting spin-orbit torques without the need of in-plane magnetic fields.
A transition from optical transport to quantum confinement, observed in a size-tunable circular graphene p–n junction could enable switching and guiding of Dirac electrons.