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Shape Driven Solid--Solid Transitions in Colloids

Soft Condensed Matter 2017-09-08 v2 Mesoscale and Nanoscale Physics Materials Science
Authors: Chrisy Xiyu Du , Greg van Anders , Richmond S. Newman , Sharon C. Glotzer
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Abstract

Despite the fundamental importance of solid--solid transitions for metallurgy, ceramics, earth science, reconfigurable materials, and colloidal matter, the details of how materials transform between two solid structures are poorly understood. We introduce a class of {simple} model systems in which the direct control of local order, via colloid shape change, induces solid--solid phase transitions, and characterize how the transitions happen thermodynamically. We find that within a single shape family there are solid--solid transitions that can occur with or without a thermal activation barrier. Our results provide new means for the study of solid--solid phase transitions, and have implications for designing reconfigurable materials.

Keywords

phase transition phase separation crystal structure and quasicrystals

Cite

@article{arxiv.1603.00727,
  title  = {Shape Driven Solid--Solid Transitions in Colloids},
  author = {Chrisy Xiyu Du and Greg van Anders and Richmond S. Newman and Sharon C. Glotzer},
  journal= {arXiv preprint arXiv:1603.00727},
  year   = {2017}
}

Comments

8 REVTeX pages, 7 figures

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