Derives a corrected boundary condition that enforces exact total surfactant mass conservation in nonlinear reduced models of soluble-surfactant-laden falling films, resolving an inconsistency in prior surface transport reductions.
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Active particles in drying droplets create self-driven flows and gradients that modify assembly patterns and contact line dynamics compared to passive evaporation-driven systems.
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A conservation-consistent boundary condition for nonlinear models of soluble-surfactant-laden falling films
Derives a corrected boundary condition that enforces exact total surfactant mass conservation in nonlinear reduced models of soluble-surfactant-laden falling films, resolving an inconsistency in prior surface transport reductions.
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From Coffee Rings to Self-Driven Assembly: Active Matter Enabled Design of Drying Droplets
Active particles in drying droplets create self-driven flows and gradients that modify assembly patterns and contact line dynamics compared to passive evaporation-driven systems.