Yuri Yu. Tarasevich

TL;DR: In this article, the mass transfer process, the formation and evolution of phase fronts and the identification of mechanisms of pattern formation are discussed, and several potential directions for future research in this area are discussed.

TL;DR: In this article, it was shown that concurrence between advection and diffusion in a drying sessile drop of a biological fluid can produce spatial redistribution of albumen and salt.

TL;DR: A fitting formula for percolation threshold, p(c) = a/k(α)+blog(10)k+c, where a, b, c, and α are the fitting parameters depending on anisotropy, is proposed and it is predicted that for large k-mers, isotropically placed at the lattice, percolations cannot occur, even at jamming concentration.

TL;DR: Comparison with the published calculations performed using lubrication approximation (very thin drop) suggests that qualitative picture of the capillary flow is insensitive to the ratio of initial drop height to the drop radius.

TL;DR: In this article, a review is devoted to the simple process of drying a multicomponent droplet of a complex fluid which may contain salt or other inclusions, and specific fundamental problems related to this system are the investigation of the mass transfer processes, the formation and evolution of phase fronts, and the identification of mechanisms of pattern formation.