Phase behavior and structure of star-polymer–colloid mixtures

We calculate the phase diagrams of mixtures between hard-sphere colloids and star-polymers of arm numbers f 52,6,32 for different star-polymer–colloid size ratios 0.2<q<0.6 using an effective one-component description for the colloids in the presence of the stars. We map the full two-component system onto an effective one-component system by inverting numerically the Ornstein–Zernike equation for binary mixtures, supplemented by the Rogers–Young closure, in the low-colloid density limit. The free energy for the fluid and crystalline phase is calculated by using both hard-sphere perturbation theory and thermodynamic integration of simulation data. We find stable fluid–fluid demixing transitions for low arm numbers f 52,6 above a critical value of the size ratio qc below preempted by a fcc-solid. For the linear polymer limit, f 52, the critical size ratio is found to be qc'0.4, in agreement with other approaches to colloid-polymer mixtures. Increasing the arm number, the region of stability of the demixing transition with respect to crystallization of the colloids shrinks, and qc grows. A comparison between the oneand two-component descriptions that demonstrates the consistency between the two routes is also carried out. © 2002 American Institute of Physics. @DOI: 10.1063/1.1474578#