Add to ORKGIn the present study, molecular dynamics simulations have been utilized to provide fundamental understanding of melting behavior of pure Pd and Pt nanoparticles with the size of 10 nm in diameter, both free and graphene-supported during continuous heating. The embedded atom method is employed to model the metal-metal interactions, whereas a Lennard-Jones potential is applied to describe the metal-carbon interactions. In addition, interactions between carbon atoms are defined by the adaptive intermolecular reactive bond order potential. Heating curves calculated between 298 K-2000 K are used to determine solid-liquid transitions. Based on simulation results, three approaches are used to investigate the thermal behavior of Pd and Pt nanoparti...
WOS: 000446918900008Structural optimization of ternary PdmPt(13-m)Ag42 nanoalloys was performed usin...
International audienceControlling the size, dispersion, and shape of nanoparticles (NPs) in the high...
Molecular dynamics simulations are performed to determine the melting points of aluminum nanoparticl...
The thermal characteristics of bimetallic Pt-Pd nanoparticles, both free and graphite-supported, wer...
The melting and solidification temperatures of nanosystems may differ by several hundred Kelvin. To ...
The melting mechanisms of Pt-based multimetallic nanoparticles (NPs) are important to help determine...
Several series of molecular dynamics runs were performed to simulate the melting transition of bimet...
At the nanoscale, materials exhibit unique properties that differ greatly from those of the bulk sta...
Melting and freezing of supported Pd nanoclusters on MgO(1 0 0) substrate are investigated using Mol...
Structural optimization of ternary PdmPt(13-m)Ag42 nanoalloys was performed using the basin-hopping ...
We have studied the structures and stabilities of copper nano-particles and the melting properties o...
The thermal evolution of nanoclusters is studied by molecular dynamics simulation to analyze the nuc...
Predicting when phase changes occur in nanoparticles is fundamental for designing the next generatio...
Classical molecular dynamics and Metropolis Monte Carlo simulations were carried out to investigate ...
Molecular simulation is used to model the structural change of carbon nanoparticles in terms of tota...
WOS: 000446918900008Structural optimization of ternary PdmPt(13-m)Ag42 nanoalloys was performed usin...
International audienceControlling the size, dispersion, and shape of nanoparticles (NPs) in the high...
Molecular dynamics simulations are performed to determine the melting points of aluminum nanoparticl...
The thermal characteristics of bimetallic Pt-Pd nanoparticles, both free and graphite-supported, wer...
The melting and solidification temperatures of nanosystems may differ by several hundred Kelvin. To ...
The melting mechanisms of Pt-based multimetallic nanoparticles (NPs) are important to help determine...
Several series of molecular dynamics runs were performed to simulate the melting transition of bimet...
At the nanoscale, materials exhibit unique properties that differ greatly from those of the bulk sta...
Melting and freezing of supported Pd nanoclusters on MgO(1 0 0) substrate are investigated using Mol...
Structural optimization of ternary PdmPt(13-m)Ag42 nanoalloys was performed using the basin-hopping ...
We have studied the structures and stabilities of copper nano-particles and the melting properties o...
The thermal evolution of nanoclusters is studied by molecular dynamics simulation to analyze the nuc...
Predicting when phase changes occur in nanoparticles is fundamental for designing the next generatio...
Classical molecular dynamics and Metropolis Monte Carlo simulations were carried out to investigate ...
Molecular simulation is used to model the structural change of carbon nanoparticles in terms of tota...
WOS: 000446918900008Structural optimization of ternary PdmPt(13-m)Ag42 nanoalloys was performed usin...
International audienceControlling the size, dispersion, and shape of nanoparticles (NPs) in the high...
Molecular dynamics simulations are performed to determine the melting points of aluminum nanoparticl...