Dipolar chain-size distributions follow exponential decay with a size s0 predictable from an effective thermodynamic potential over broad regions of the phase diagram.
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Base pairing and electrostatic interactions cooperate to stabilize coacervation in DNA nanostar-polylysine mixtures at high ionic strengths and temperatures, producing two- or three-phase coexistence and immiscible coacervates.
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A Statistical-Mechanical Model for Dipolar Chain Formation
Dipolar chain-size distributions follow exponential decay with a size s0 predictable from an effective thermodynamic potential over broad regions of the phase diagram.
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Cooperation and competition of basepairing and electrostatic interactions in mixtures of DNA nanostars and polylysine
Base pairing and electrostatic interactions cooperate to stabilize coacervation in DNA nanostar-polylysine mixtures at high ionic strengths and temperatures, producing two- or three-phase coexistence and immiscible coacervates.