Add to ORKGMolecular-dynamics computer simulations which employ the embedded-atom potential show that nanowires of gold exist as multishelled structures. We simulate double-walled gold nanowires and calculate the capacitance of a finite nanometer-size cylindrical capacitor. For the sizes for which multishelled nanowires appear in simulations we find the capacitances below one attofarad
Abstract. Size-evolutionary patterns of mechanical and electronic transport properties in junctions ...
Copper and gold nanowires under tension evolve to form linear atomic chains (LACs), and the study an...
The constant trend of device miniaturization along with ever-growing list of unusual behaviour of na...
Molecular-dynamics computer simulations which employ the embedded-atom potential show that nanowires...
The structures of free-standing gold nanowires are studied by using molecular-dynamics-based genetic...
The structures of free-standing gold nanowires are studied by using molecular-dynamics-based genetic...
We perform a large-scale statistical analysis (>2000 independent simulations) of the elongation and ...
Nanoscale materials have become an active area of research due to the enhanced mechanical properties...
Equilibrium structure, local densities of states, and electronic transport in a gold nanowire made o...
Suspended gold nanowires can be made atomically thin with as many as five atoms, showing extremely l...
Real time imaging experiments with metal nanowires (NWs), in particular gold under stress, that show...
We report comprehensive high-accuracy molecular dynamics simulations using the ReaxFF forcefield to ...
A nanocapacitor with ultra high capacitance (718 +/- 0.2 pF) has been fabricated using electro-depos...
Suspended gold nanowires have recently been made in an ultrahigh vacuum and were imaged by electron ...
We report the conductance calculation of metallic nanowires of different metals under the applicatio...
Abstract. Size-evolutionary patterns of mechanical and electronic transport properties in junctions ...
Copper and gold nanowires under tension evolve to form linear atomic chains (LACs), and the study an...
The constant trend of device miniaturization along with ever-growing list of unusual behaviour of na...
Molecular-dynamics computer simulations which employ the embedded-atom potential show that nanowires...
The structures of free-standing gold nanowires are studied by using molecular-dynamics-based genetic...
The structures of free-standing gold nanowires are studied by using molecular-dynamics-based genetic...
We perform a large-scale statistical analysis (>2000 independent simulations) of the elongation and ...
Nanoscale materials have become an active area of research due to the enhanced mechanical properties...
Equilibrium structure, local densities of states, and electronic transport in a gold nanowire made o...
Suspended gold nanowires can be made atomically thin with as many as five atoms, showing extremely l...
Real time imaging experiments with metal nanowires (NWs), in particular gold under stress, that show...
We report comprehensive high-accuracy molecular dynamics simulations using the ReaxFF forcefield to ...
A nanocapacitor with ultra high capacitance (718 +/- 0.2 pF) has been fabricated using electro-depos...
Suspended gold nanowires have recently been made in an ultrahigh vacuum and were imaged by electron ...
We report the conductance calculation of metallic nanowires of different metals under the applicatio...
Abstract. Size-evolutionary patterns of mechanical and electronic transport properties in junctions ...
Copper and gold nanowires under tension evolve to form linear atomic chains (LACs), and the study an...
The constant trend of device miniaturization along with ever-growing list of unusual behaviour of na...