Shape-sensitive crystallization in colloidal superball fluids

Laura Rossi; Stefano Sacanna; Vishal Soni; Paul Chaikin; David Pine; Albert Philipse; William Irvine

Shape-sensitive crystallization in colloidal superball fluids

ORAL

Abstract

Uniform colloidal silica superballs crystallize into a variety of ordered phases when depletant objects induce attraction between the colloids. The differences in these entropy-driven self-assembled structures are driven by minute deviations of the particle shape and are uniquely determined by an interplay between the size of depletants and superballs. Tuning this ratio allows to smooth the deviation in particle shape, allowing the observation of different depletion-stabilized crystalline structures for the same superball fluid.

March 7, 2014, 8:24 AM – March 7, 2014, 8:36 AM

Authors

Laura Rossi
- Van't Hoff Laboratory for Physical and Colloid Chemistry, Utrecht University, NL
Stefano Sacanna
- Center for Soft Matter research, New York University, USA
Vishal Soni
- James Franck institute, University of Chicago, USA
Paul Chaikin
- Center for Soft Matter research, New York University, USA
- New York University
David Pine
- Center for Soft Matter research, New York University, USA
Albert Philipse
- Van't Hoff Laboratory for Physical and Colloid Chemistry, Utrecht University, NL
William Irvine
- James Franck institute, University of Chicago, USA