Add to ORKGHydration forces play a crucial role for a wide range of phenomena in physics, chemistry, and biology. They control the formation or prevention of direct contact between any kind of dissolved molecules or suspended particles in water. Here we study the hydration of mica surfaces in contact with aqueous solutions of various alkali chloride salts over a wide range of concentrations and pH values. Using a combination of Atomic Force Microscopy and Molecular Dynamics simulations, we demonstrate that hydration forces generally consist of a superposition of a monotonically decaying and an oscillatory part, each with a unique dependence on the specific type of cation. The monotonic hydration force gradually decreases in strength with decreasing bu...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
Abstract—Using a surface forces apparatus (SFA), we have studied the interactions between mica surfa...
Cation–π interactions are considered to be among the most important strong noncovalent interactions ...
Hydration forces play a crucial role in a wide range of phenomena in physics, chemistry, and biology...
Hydration forces play a crucial role in a wide range of phenomena in physics, chemistry, and biology...
Hydration forces play a crucial role in a wide range of phenomena in physics, chemistry, and biology...
The hydration force was introduced after the observation that clays and lipid bilayers swell spontan...
High resolution AFM spectroscopy was used to investigate the oscillatory hydration forces at mica-el...
The specific interaction of ions with macromolecules and solid–liquid interfaces is of crucial impor...
Using a surface force balance, we have measured the normal and shear forces between mica surfaces ac...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
Ions and water structuring at charged–solid/electrolyte interfaces and forces arising from interfaci...
The specific interaction of ions with macromolecules and solid-liquid interfaces is of crucial impor...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
The balance between hydration and Derjaguin-Landau-Verwey-Overbeek (DLVO) forces at solid-liquid int...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
Abstract—Using a surface forces apparatus (SFA), we have studied the interactions between mica surfa...
Cation–π interactions are considered to be among the most important strong noncovalent interactions ...
Hydration forces play a crucial role in a wide range of phenomena in physics, chemistry, and biology...
Hydration forces play a crucial role in a wide range of phenomena in physics, chemistry, and biology...
Hydration forces play a crucial role in a wide range of phenomena in physics, chemistry, and biology...
The hydration force was introduced after the observation that clays and lipid bilayers swell spontan...
High resolution AFM spectroscopy was used to investigate the oscillatory hydration forces at mica-el...
The specific interaction of ions with macromolecules and solid–liquid interfaces is of crucial impor...
Using a surface force balance, we have measured the normal and shear forces between mica surfaces ac...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
Ions and water structuring at charged–solid/electrolyte interfaces and forces arising from interfaci...
The specific interaction of ions with macromolecules and solid-liquid interfaces is of crucial impor...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
The balance between hydration and Derjaguin-Landau-Verwey-Overbeek (DLVO) forces at solid-liquid int...
The first direct measurements of forces between mica surfaces in electrolytes showed an apparent sho...
Abstract—Using a surface forces apparatus (SFA), we have studied the interactions between mica surfa...
Cation–π interactions are considered to be among the most important strong noncovalent interactions ...