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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.
Under specific conditions, molecular monolayers dissipate power more than they heat up at one end of a molecular junction, validating theoretical predictions of Peltier cooling.
Negative capacitance effect in a ferroelectric-based gate stack provides an effective solution for hysteresis-free steep-slope operation in a MoS2 field-effect transistor.
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.