Melting of microgel colloidal crystals

Yi Peng; Ziren Wang; Yilong Han

doi:10.1088/1742-6596/319/1/012010

Melting of microgel colloidal crystals

Yi Peng, Ziren Wang, Yilong Han

Chemical Engineering and Materials Science

Research output: Contribution to journal › Conference article › peer-review

4 Scopus citations

Abstract

We experimentally studied the melting of colloidal crystals composed of diameter-tunable microgel spheres by bright-field and confocal video microscopies at the single-particle level. Thick (> 4 layers) and thin (≤ 4 layers) films exhibited dramatically different melting kinetics. Thick films melted heterogeneously from grain boundaries in polycrystals and from surfaces in single crystals, while thin films melted homogeneously even in polycrystals. A novel heterogeneous melting at dislocation was observed in 5- to 12-layer films. The equilibrium phase behaviors in three thickness regimes were all different: thick films had a crystal-liquid coexistence regime which decreased with the film thickness and vanished at 4 layers, thin crystalline films melted into liquids in one step, while monolayers melted in two steps with an intermediate hexatic phase.

Original language	English (US)
Article number	012010
Journal	Journal of Physics: Conference Series
Volume	319
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/319/1/012010
State	Published - 2011
Event	12th International Symposium on Continuum Models and Discrete Systems, CMDS-12 - Kolkata, India Duration: Feb 21 2011 → Feb 25 2011

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title = "Melting of microgel colloidal crystals",

abstract = "We experimentally studied the melting of colloidal crystals composed of diameter-tunable microgel spheres by bright-field and confocal video microscopies at the single-particle level. Thick (> 4 layers) and thin (≤ 4 layers) films exhibited dramatically different melting kinetics. Thick films melted heterogeneously from grain boundaries in polycrystals and from surfaces in single crystals, while thin films melted homogeneously even in polycrystals. A novel heterogeneous melting at dislocation was observed in 5- to 12-layer films. The equilibrium phase behaviors in three thickness regimes were all different: thick films had a crystal-liquid coexistence regime which decreased with the film thickness and vanished at 4 layers, thin crystalline films melted into liquids in one step, while monolayers melted in two steps with an intermediate hexatic phase.",

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AB - We experimentally studied the melting of colloidal crystals composed of diameter-tunable microgel spheres by bright-field and confocal video microscopies at the single-particle level. Thick (> 4 layers) and thin (≤ 4 layers) films exhibited dramatically different melting kinetics. Thick films melted heterogeneously from grain boundaries in polycrystals and from surfaces in single crystals, while thin films melted homogeneously even in polycrystals. A novel heterogeneous melting at dislocation was observed in 5- to 12-layer films. The equilibrium phase behaviors in three thickness regimes were all different: thick films had a crystal-liquid coexistence regime which decreased with the film thickness and vanished at 4 layers, thin crystalline films melted into liquids in one step, while monolayers melted in two steps with an intermediate hexatic phase.

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Melting of microgel colloidal crystals

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