Add to ORKGWe study the electrostatic interaction between two ionic surfactant layers by performing molecular dynamic simulations of salt-free thin water films coated by surfactants (Newton black films). We find a strong exponentially decaying short-range repulsion not explained by classical Poisson-Boltzmann theory. This electrostatic force is shown to be mainly due to the anomalous dielectric response of water near charged surfactant layers. This result clarifies the much debated physical mechanism underlying the controversial "hydration forces" observed in experiments. In the case of ionic thin films, the "hydration forces" can be identified with the electrostatic forces induced by the layers of highly polarized water originated at the interfaces
A series of atomistic molecular dynamics simulations were performed in the present investigation to ...
The dielectric continuum model has rightfully been and continues to be a major workhorse for theory ...
Ionic liquids are pure salts that are liquid under ambient conditions. As liquids composed solely of...
A theory is presented to quantify the electrostatic forces in thin aqueous electrolyte films between...
by Israelachvili et al. (2, 3) and Pashley (4, 5), who examined We demonstrate that the hydration re...
The structure of water in an interfacial region differs from bulk due to surface-induced water orde...
The hydration force was introduced after the observation that clays and lipid bilayers swell spontan...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
© 2018 The Royal Society of Chemistry. Water dissolved in ionic liquids garners particular attention...
AbstractContinuum electrostatics models for ions in water provide apparent long range electrostatic ...
The stability of the aqueous film between two charged lipidic bilayers is investigated in order to e...
A systematic study of collisions between surfactant-free organic drops in aqueous electrolyte soluti...
Aqueous electrolyte solutions containing multivalent ions exhibit various intriguing properties, inc...
Motions of two distinct ions can get correlated because the polarization induced by the ions can pro...
A dialkylchain cationic surfactant forms the so-called -gel in water showing virtually no fluidity, ...
A series of atomistic molecular dynamics simulations were performed in the present investigation to ...
The dielectric continuum model has rightfully been and continues to be a major workhorse for theory ...
Ionic liquids are pure salts that are liquid under ambient conditions. As liquids composed solely of...
A theory is presented to quantify the electrostatic forces in thin aqueous electrolyte films between...
by Israelachvili et al. (2, 3) and Pashley (4, 5), who examined We demonstrate that the hydration re...
The structure of water in an interfacial region differs from bulk due to surface-induced water orde...
The hydration force was introduced after the observation that clays and lipid bilayers swell spontan...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
© 2018 The Royal Society of Chemistry. Water dissolved in ionic liquids garners particular attention...
AbstractContinuum electrostatics models for ions in water provide apparent long range electrostatic ...
The stability of the aqueous film between two charged lipidic bilayers is investigated in order to e...
A systematic study of collisions between surfactant-free organic drops in aqueous electrolyte soluti...
Aqueous electrolyte solutions containing multivalent ions exhibit various intriguing properties, inc...
Motions of two distinct ions can get correlated because the polarization induced by the ions can pro...
A dialkylchain cationic surfactant forms the so-called -gel in water showing virtually no fluidity, ...
A series of atomistic molecular dynamics simulations were performed in the present investigation to ...
The dielectric continuum model has rightfully been and continues to be a major workhorse for theory ...
Ionic liquids are pure salts that are liquid under ambient conditions. As liquids composed solely of...