A passivation-activation cycle of phase-separating proteins nucleates a condensate that repels and propels micron-sized colloids at up to 100 μm/s while resisting Brownian motion and external forces.
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2 Pith papers cite this work. Polarity classification is still indexing.
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2026 2verdicts
UNVERDICTED 2representative citing papers
Van der Waals self-cohesion alters EPD deposit microstructures at low electric fields but becomes negligible beyond a critical field where volume exclusion dominates.
citing papers explorer
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Propelling catalytic structures using active phase separation
A passivation-activation cycle of phase-separating proteins nucleates a condensate that repels and propels micron-sized colloids at up to 100 μm/s while resisting Brownian motion and external forces.
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The effect of Van der Waals interaction on the microstructure of EPD deposits: a simulation study
Van der Waals self-cohesion alters EPD deposit microstructures at low electric fields but becomes negligible beyond a critical field where volume exclusion dominates.