Bubble-induced Marangoni convection, modulated by substrate wettability and drying conditions, dominates evaporation dynamics and produces uniform or central deposits instead of peripheral rings in catalytically active Janus particle droplets.
Bubble -driven flow transitions in evaporating active droplets on structured surfaces,
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
cond-mat.soft 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
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.
citing papers explorer
-
Influence of Bubble Lifetime on the Drying of Catalytically Active Sessile Droplets
Bubble-induced Marangoni convection, modulated by substrate wettability and drying conditions, dominates evaporation dynamics and produces uniform or central deposits instead of peripheral rings in catalytically active Janus particle droplets.
-
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.