TY - BOOK ID - 134043538 TI - Current Perspective on the Study of Liquid-Fluid Interfaces: From Fundamentals to Innovative Applications PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - thermal radiations KW - magnetic field KW - Carreau fluid KW - stretching/shrinking surface KW - Hall effect KW - nonlinear radiations KW - HAM KW - desulfurization wastewater evaporation technology KW - evaporation performance KW - orthogonal test KW - simulation KW - spray coating KW - coating film formation KW - leveling of coating surface KW - fluorescence method KW - visualization KW - ferromagnetic KW - nanofluid KW - bioconvection KW - porous medium KW - heat suction/injection KW - magnetic dipole KW - liquid-infused surfaces KW - durability KW - lubricants KW - wetting KW - liquid-repellent coatings KW - annealed Co40Fe40W20 thin films KW - magnetic tunnel junctions (MTJs) KW - X-ray diffraction (XRD) KW - contact angle KW - surface energy KW - nanomechanical properties KW - Prandtl nanofluid flow KW - convectively heated surface KW - stochastic intelligent technique KW - Levenberg Marquardt method KW - backpropagated network KW - artificial neural network KW - Adam numerical solver KW - surface hydrophilicity KW - graphene KW - ice formation KW - clearance KW - molecular dynamic simulation KW - dynamics KW - fluid interfaces KW - inhalation KW - lung surfactant KW - nanoparticles KW - pollutants KW - rheology KW - emulsion KW - droplet size KW - microscopy-assisted KW - image analysis KW - laser diffraction KW - turbidity KW - viscosity KW - Ree-Eyring nanofluid KW - viscous dissipation KW - Cattaneo-Christov model KW - Koo-Kleinstreuer model KW - chemical reaction KW - heat transfer KW - stretching cylinder KW - nonlinear radiation KW - Powell–Eyring KW - Darcy–Forchheimer KW - n/a KW - Powell-Eyring KW - Darcy-Forchheimer UR - https://www.unicat.be/uniCat?func=search&query=sysid:134043538 AB - Fluid interfaces are promising candidates for confining different types of materials - e.g., polymers, surfactants, colloids, and even small molecules - and for designing new functional materials with reduced dimensionality. The development of such materials requires a deepening of the Physico-chemical bases underlying the formation of layers at fluid interfaces, as well as on the characterization of their structures and properties. This is of particular importance because the constraints associated with the assembly of materials at the interface lead to the emergence of equilibrium and dynamics features in the interfacial systems, which are far from those conventionally found in the traditional materials. This Special Issue is devoted to studies on fundamental and applied aspects of fluid interfaces, trying to provide a comprehensive perspective on the current status of the research field. ER -