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Molecular Dynamics Simulations of Melting Iron Nanoparticles with/without Defects Using a Reaxff Reactive Force Field

Junlei Sun, Pingan Liu, Mengjun Wang, Junpeng Liu

2020Scientific Reports47 citationsDOIOpen Access PDF

Abstract

Molecular dynamics simulations are performed to study thermal properties of bulk iron material and Fe nanoparticles (FNP) by using a ReaxFF reactive force field. Thermodynamic and energy properties such as radial distribution function, Lindemann index and potential energy plots are adopted to study the melting behaviors of FNPs from 300 K to 2500 K. A step-heating method is introduced to obtain equilibrium melting points. Our results show ReaxFF force field is able to detect size effect in FNP melting no matter in energy or structure evolution aspect. Extra storage energy of FNPs caused by defects (0%-10%) is firstly studied in this paper: defects will not affect the melting point of FNPs directly but increase the system energy especially when temperature reaches the melting points.

Topics & Concepts

ReaxFFMolecular dynamicsForce field (fiction)Melting pointMaterials scienceMelting temperatureChemical physicsNanoparticleMelting-point depressionRadial distribution functionThermodynamicsNanotechnologyChemistryComputational chemistryPhysicsComposite materialQuantum mechanicsInteratomic potentialnanoparticles nucleation surface interactionsMaterial Dynamics and PropertiesTheoretical and Computational Physics
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