Add to ORKGBicontinuous jammed emulsions (or bijels) are tortuous, interconnected structures of two immiscible liquids, kinetically trapped by colloidal particles that are irreversibly bound to the oil-water interface. A wealth of applications has been proposed for bijels in catalysis, energy storage and molecular encapsulation, but large domain sizes (on the order of 5 µm or larger) and difficulty in fabrication pose major barriers to their use. Here, we show that bijels with sub-micrometre domains can be formed via homogenization, rather than spinodal decomposition. We achieve this by using nanoparticle surfactants: polymers and nanoparticles of complementary functionality (for example, ion-pairing) that bind to one another at the oil-water interfac...
Nanoparticle-surfactants (NPSs) assembled at water-oil interfaces can significantly lower the interf...
Several chemical processes involve the use of mutually immiscible molecules, for example a water-sol...
Oil/water emulsions are usually stabilized either by interfacial modification using nanoparticles an...
Bicontinuous jammed emulsions (known as bijels) are Pickering emulsions where oil and water are both...
Bicontinuous particle-stabilized emulsions (bijels) are networks of interpenetrating oil/water chann...
The liquid-liquid phase separation of binary fluids, induced by a temperature quench, can be arreste...
Pickering emulsions have been successfully used as media for catalysis and separation. However, simu...
Colloidal particles with appropriate wetting properties can become very strongly trapped at an inter...
Fluid interfaces are versatile sites for materials assembly; molecules and particles alike adsorb at...
Composite materials generally consist of different components which individually exhibit an entirel...
Polymer-coated nanoparticles are interfacially active and have been shown to stabilize macroscopic e...
Bicontinuous interfacially jammed emulsion gels, or bijels, is a class of soft material uniquely cha...
Nanoparticle-surfactants (NPSs) assembled at water-oil interfaces can significantly lower the interf...
Several chemical processes involve the use of mutually immiscible molecules, for example a water-sol...
Oil/water emulsions are usually stabilized either by interfacial modification using nanoparticles an...
Bicontinuous jammed emulsions (known as bijels) are Pickering emulsions where oil and water are both...
Bicontinuous particle-stabilized emulsions (bijels) are networks of interpenetrating oil/water chann...
The liquid-liquid phase separation of binary fluids, induced by a temperature quench, can be arreste...
Pickering emulsions have been successfully used as media for catalysis and separation. However, simu...
Colloidal particles with appropriate wetting properties can become very strongly trapped at an inter...
Fluid interfaces are versatile sites for materials assembly; molecules and particles alike adsorb at...
Composite materials generally consist of different components which individually exhibit an entirel...
Polymer-coated nanoparticles are interfacially active and have been shown to stabilize macroscopic e...
Bicontinuous interfacially jammed emulsion gels, or bijels, is a class of soft material uniquely cha...
Nanoparticle-surfactants (NPSs) assembled at water-oil interfaces can significantly lower the interf...
Several chemical processes involve the use of mutually immiscible molecules, for example a water-sol...
Oil/water emulsions are usually stabilized either by interfacial modification using nanoparticles an...