| Abstrakt: |
In addition, simulations have been very useful to locate and characterize gas-liquid (colloid-rich/colloid poor) phase separation of the Asakura-Oosawa effective potential,[108] clarifying that this belongs, as expected, to the Ising universality class. Investigations on binary mixtures of colloids and polymers[109] where non-ideality effects of the polymer are taken into account have also been explored. Colloid synthesis has evolved to such a degree[[119]] that it is nowadays possible to make colloidal particles of a wide range of shapes.[[121], [123], [125]] This, and the fact that anisotropic shapes occur in nature, has triggered studies on mixtures of non-spherical colloids plus added nonadsorbing polymers. 113, 2886 (2000).10.1063/1.1305867 31 A. N. Semenov and A. A. Shvets, "Theory of colloid depletion stabilization by unattached and adsorbed polymers", Soft Matter 11, 8863-8878 (2015).10.1039/c5sm01365h 32 H. N. W. Lekkerkerker, W. C.-K. Poon, P. N. Pusey, A. Stroobants, and P. B. Warren, "Phase-behavior of colloid plus polymer mixtures", Europhys. 96, 36006 (2011).10.1209/0295-5075/96/36006 82 N. Park and J. C. Conrad, "Phase behavior of colloid-polymer depletion mixtures with unary or binary depletants", Soft Matter 13, 2781-2792 (2017).10.1039/c6sm02891h 83 E. Stiakakis, G. Petekidis, D. Vlassopoulos, C. N. Likos, H. Iatrou, N. Hadjichristidis, and J. Roovers, "Depletion and cluster formation in soft colloid-polymer mixtures", Europhys. [Extracted from the article] |
