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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.
Indentation in bilayer epitaxial graphene induces its reversible transformation into a diamond-like structure with stiffness and hardness comparable to diamond.
Self-assembled few-layer organic films based on paraffinic tripodal triptycene provide an efficient surface functionalization strategy for high-performance organic electronic devices.
RNA nanotechnology is utilized for directional control by altering the orientation of arrow-shaped RNAs for either ligand-display on extracellular vesicle or to regulate intracellular trafficking of siRNA or miRNA in cancer treatment.
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.
The combination of paclitaxel and the antiangiogenic agent BIBF 1120, loaded into nanoparticles, induces synthetic lethality in endometrial cancers with specific mutations in the tumour suppressor p53, providing the first step towards personalized medicine for endometrial cancer.
Gram-negative bacteria exposed to subinhibitory concentrations of silver nanoparticles can develop resistance to their antibiotic activity due to the production of flagellin, an adhesive protein of the bacterial flagellum, which causes the aggregation of silver nanoparticles.
Advanced nanoengineering of small-period AG lattices enables the observation of a vanishing density of states that suggests the presence of massless Dirac fermions.
Boron-nitride-supported graphene transistors show prominent current and noise temperature saturation due to hyperbolic phonon emission by non-equilibrium electron–hole pairs.
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.
Elusive magnetic configurations of geometrically frustrated artificial kagome dipolar spin ices are realized by means of topological defect-driven magnetic writing.