Add to ORKGA positively charged, mixed bilayer vesicle in the presence of negatively charged surfaces (for example, colloidal particles) can spontaneously partition into an adhesion zone of definite area, and another zone that repels additional negative objects. Although the membrane itself has nonnegative charge in the repulsive zone, negative counterions on the interior of the vesicle spontaneously aggregate there, and present a net negative charge to the exterior. Beyond the fundamental result that oppositely charged objects can repel, our mechanism helps explain recent experiments on surfactant vesicles
AbstractInteraction of small unilamellar vesicles (SUVs), composed of negative diphosphatidylglycero...
ABSTRACT Spontaneous formation of giant unilamellar liposomes in a gentle hydration process, as well...
Biological membranes and lipid vesicles often display complex shapes with non-uniform membrane curva...
A positively charged, mixed bilayer vesicle in the presence of negatively charged surfaces (for exam...
A positively charged, mixed bilayer vesicle in the presence of negatively charged surfaces (for exam...
A positively charged, mixed bilayer vesicle in the presence of negatively charged surfaces (for exam...
Opposite charged objects attract each other in vacuum; same thing happens in solution according to P...
Opposite charged objects attract each other in vacuum; same thing happens in solution according to P...
The interaction between charged objects in solution is generally expected to recapitulate two centra...
PACS. 87.16.Dg – Membranes, bilayers, and vesicles. Abstract. – We study the electrostatic effects o...
AbstractThe adsorption of colloids of varying sizes and charges onto a surface that carries both neg...
AbstractWe introduce an experimental setup for modulating adhesion of giant unilamellar vesicles to ...
The adsorption of colloids with varying sizes and charges onto a surface carrying both negative and ...
AbstractThe adsorption of colloids of varying sizes and charges onto a surface that carries both neg...
We introduce an experimental setup for modulating adhesion of giant unilamellar vesicles to a planar...
AbstractInteraction of small unilamellar vesicles (SUVs), composed of negative diphosphatidylglycero...
ABSTRACT Spontaneous formation of giant unilamellar liposomes in a gentle hydration process, as well...
Biological membranes and lipid vesicles often display complex shapes with non-uniform membrane curva...
A positively charged, mixed bilayer vesicle in the presence of negatively charged surfaces (for exam...
A positively charged, mixed bilayer vesicle in the presence of negatively charged surfaces (for exam...
A positively charged, mixed bilayer vesicle in the presence of negatively charged surfaces (for exam...
Opposite charged objects attract each other in vacuum; same thing happens in solution according to P...
Opposite charged objects attract each other in vacuum; same thing happens in solution according to P...
The interaction between charged objects in solution is generally expected to recapitulate two centra...
PACS. 87.16.Dg – Membranes, bilayers, and vesicles. Abstract. – We study the electrostatic effects o...
AbstractThe adsorption of colloids of varying sizes and charges onto a surface that carries both neg...
AbstractWe introduce an experimental setup for modulating adhesion of giant unilamellar vesicles to ...
The adsorption of colloids with varying sizes and charges onto a surface carrying both negative and ...
AbstractThe adsorption of colloids of varying sizes and charges onto a surface that carries both neg...
We introduce an experimental setup for modulating adhesion of giant unilamellar vesicles to a planar...
AbstractInteraction of small unilamellar vesicles (SUVs), composed of negative diphosphatidylglycero...
ABSTRACT Spontaneous formation of giant unilamellar liposomes in a gentle hydration process, as well...
Biological membranes and lipid vesicles often display complex shapes with non-uniform membrane curva...