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
Open CRN behavior and thermodynamics, including local detailed balance and entropy production, emerge to leading order from closed CRNs via time-scale and abundance separations for arbitrary stoichiometries.
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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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Emergence of Open Chemical Reaction Network Thermodynamics within Closed Systems
Open CRN behavior and thermodynamics, including local detailed balance and entropy production, emerge to leading order from closed CRNs via time-scale and abundance separations for arbitrary stoichiometries.