Computer simulations of phase transitions of bulk and confined colloid–polymer systems

Spin-echo small-angle neutron scattering (SESANS) is an efficient method to measure particle sizes in real-space. In this paper we show some of the first measurements that illustrate the new possibilities of this new technique. The phase transition in a colloidal system from gas via liquid to solid

## Abstract Computer simulations dealing with the phase transitions and phase diagrams of polymer solutions, polymer mixtures, and polymers in heterogeneous environments are still a methodological challenge, since nontrivial structure occurs from the Angstrom‐scale of covalent chemical bonds to the

Computer programs have been developed to predict phase separation, flowinduced phase structure, and structure-dependent mechanical properties of binary polymer mixtures. The phase separation is simulated by solving a two-dimensional Langevin equation with Flory-Huggins free energy using the finite d

Neutron diffraction measurements have been made for cyclohexane, C,D,, as a function of temperature for bulk samples and also in porous silica with characteristic pore dimensions of -9OA. The results show that the simplifying assumption of cyclohexane as an unhindered rotator are not valid and that

This paper presents several studies essentially on the solid/liquid interface. The studied system is the liquid binary mixture water-2,5dimethylpyridine (2,5DMP) in contact with an amorphous silica (Aerosil type). The study of wetting along the two-liquid bulk phases coexistence in contact with sili