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Phase behavior and 3D structure of strongly attractive microsphere-nanoparticle mixtures. | LitMetric

Phase behavior and 3D structure of strongly attractive microsphere-nanoparticle mixtures.

Langmuir

Materials Science and Engineering Department and Frederick Seitz Materials Research Laboratory, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA.

Published: November 2005

AI Article Synopsis

  • The study explores how mixtures of silica microspheres and polystyrene nanoparticles behave and their three-dimensional (3D) structures when charged interactions are manipulated.
  • By using advanced microscopy techniques, the researchers observe changes in the structure of the colloidal phases as the composition of the mixtures changes.
  • Key findings include a transition from a stable arrangement of microspheres to flocculation and charge reversal as nanoparticle concentration increases, which can be leveraged to control the resulting structures formed through sedimentation.

Article Abstract

We investigate the phase behavior and 3D structure of strongly attractive mixtures of silica microspheres and polystyrene nanoparticles. These binary mixtures are electrostatically tuned to promote a repulsion between like-charged (microsphere-microsphere and nanoparticle-nanoparticle) species and a strong attraction between oppositely charged (microsphere-nanoparticle) species. Using confocal fluorescence scanning microscopy, we directly observe the 3D structure of colloidal phases assembled from these mixtures as a function of varying composition. In the absence of nanoparticle additions, the charged-stabilized microspheres assemble into a polycrystalline array upon sedimentation. With increasing nanoparticle volume fraction, nanoparticle bridges form between microspheres, inducing their flocculation. At even higher nanoparticle volume fractions, the microspheres become well coated with nanoparticles, leading to their charge reversal and subsequent restabilization. We demonstrate how this fluid-gel-fluid transition can be utilized to control the morphology of the colloidal phases formed under gravity-driven sedimentation.

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Source
http://dx.doi.org/10.1021/la051998kDOI Listing

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