FCC-to-BCC phase transitions in convex and concave hard particle systems

Particle shape plays an important role in the phase behavior of colloidal self-assembly. Recent progress in particle synthesis has made particles of polyhedral shapes and dimpled spherical shapes available. Here using computer simulations of hard particle models, we study face-centered cubic to body...

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Veröffentlicht in:	arXiv.org 2019-01
Hauptverfasser:	Wan, Duanduan, Chrisy Xiyu Du, Greg van Anders, Glotzer, Sharon C
Format:	Artikel
Sprache:	eng
Schlagworte:	Body centered cubic lattice Computer simulation Concavity Convexity Dimpling Face centered cubic lattice Free energy Particle shape Phase transitions Physics - Soft Condensed Matter Physics - Statistical Mechanics Self-assembly
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description	Particle shape plays an important role in the phase behavior of colloidal self-assembly. Recent progress in particle synthesis has made particles of polyhedral shapes and dimpled spherical shapes available. Here using computer simulations of hard particle models, we study face-centered cubic to body-centered cubic (FCC-to-BCC) phase transitions in a convex 432 polyhedral shape family and a concave dimpled sphere family. Particles in both families have four-, three-, and two-fold rotational symmetries. Via free energy calculations we find the FCC-to-BCC transitions in both families are first order. As a previous work reports the FCC-to-BCC phase transition is first order in a convex 332 family of hard polyhedra, our work provides additional insight into the FCC-to-BCC transition and how the convexity or concavity of particle shape affects phase transition pathways.
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subjects	Body centered cubic lattice Computer simulation Concavity Convexity Dimpling Face centered cubic lattice Free energy Particle shape Phase transitions Physics - Soft Condensed Matter Physics - Statistical Mechanics Self-assembly
title	FCC-to-BCC phase transitions in convex and concave hard particle systems
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