1. Interfacial solvation can explain attraction between like-charged objects in aqueous solution.
- Author
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Kubincová, Alžbeta, Hünenberger, Philippe H., and Krishnan, Madhavi
- Subjects
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AQUEOUS solutions , *INTERMOLECULAR interactions , *PHASE separation , *NUCLEIC acids , *IONIC strength , *ELECTROSTATIC interaction , *SOLVATION - Abstract
Over the past few decades, the experimental literature has consistently reported observations of attraction between like-charged colloidal particles and macromolecules in aqueous solution. Examples include nucleic acids and colloidal particles in the bulk solution and under confinement, and biological liquid–liquid phase separation. This observation is at odds with the intuitive expectation of an interparticle repulsion that decays monotonically with distance. Although attraction between like-charged particles can be rationalized theoretically in the strong-coupling regime, e.g., in the presence of multivalent counterions, recurring accounts of long-range attraction in aqueous solution containing monovalent ions at low ionic strength have posed an open conundrum. Here, we show that the behavior of molecular water at an interface—traditionally disregarded in the continuum electrostatics picture—provides a mechanism to explain the attraction between like-charged objects in a broad spectrum of experiments. This basic principle will have important ramifications in the ongoing quest to better understand intermolecular interactions in solution. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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