Formation of Laves Phases in Repulsive and Attractive Hard Sphere Suspensions

Abstract

Colloidal Laves phases (LPs) of MgCu2 type are promising precursors for diamond structure photonic materials. They have been predicted for hard sphere binary mixtures, but not yet observed. We here report a time resolved static light scattering study on their formation in a binary mixture of buoyant experimental hard sphere approximants (size ratio =0.77, molar fraction of small spheres xS = 0.76) for volume fractions between melting and the glass transition. In line with theoretical expectation, all samples form LPs of MgZn2 structure on the time scale of weeks to months. MgNi2 structures are absent, MgCu2 structures and randomly stacked LPs prevail at elevated volume fraction. The addition of small amounts of non-adsorbing polymer switches the interaction to depletion attractive and results in significantly accelerated crystallization kinetics and improved crystal quality.