We report a conceptually new strategy for forming particle-stabilized emulsions. We begin with stable, dilute suspensions of highly hydrophilic nanoparticles in water and hydrophobic nanoparticles in oil. When the two suspensions are mixed, attractive interactions between the hydrophilic and hydrophobic particles cause them to assemble at the oil-water interfaces into partially wettable or Janus-like clusters that effectively stabilize emulsions. By tuning the ratio of hydrophilic to hydrophobic particles in the clusters, both water-in-oil as well as oil-in-water emulsions can be formed. The van der Waals interaction energy between two particle types across an aqueous-organic interface provide a systematic guide to particle and liquid combi...
Oil/water emulsions are usually stabilized either by interfacial modification using nanoparticles an...
We propose a novel route for the stabilization of oil-in-water Pickering emulsions using inherently ...
Oil-in-water emulsions were formed and stabilized at low amphiphile concentrations by combining hydr...
We report a conceptually new strategy for forming particle-stabilized emulsions. We begin with stabl...
Practically irreversible attachment of partially wettable particles to liquid-liquid interfaces pres...
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim Surface-inactive, highly hydrophilic particles a...
Classical (surfactant stabilized) and Pickering (particle stabilized) type emulsions have been widel...
Practically irreversible attachment of partially wettable particles to liquid-liquid interfaces pres...
The stabilization of emulsions by a mixture of oppositely charged nanoparticles is investigated in r...
Oil-in-water emulsions were formed and stabilized at low amphiphile concentrations by combining hydr...
Formation and stability of emulsions is one of the important topics in the field of colloids and int...
The immense nanotechnology advances in other industries provided opportunities to rapidly develop va...
The incorporation of soft hydrophilic particles at the interface of water in non-polar oil emulsion ...
Here, we report a novel ‘double Pickering stabilization’ of W/O emulsions, where complex formation a...
Typical Pickering emulsions accumulate particles to form a robust colloidal layer at an immiscible l...
Oil/water emulsions are usually stabilized either by interfacial modification using nanoparticles an...
We propose a novel route for the stabilization of oil-in-water Pickering emulsions using inherently ...
Oil-in-water emulsions were formed and stabilized at low amphiphile concentrations by combining hydr...
We report a conceptually new strategy for forming particle-stabilized emulsions. We begin with stabl...
Practically irreversible attachment of partially wettable particles to liquid-liquid interfaces pres...
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim Surface-inactive, highly hydrophilic particles a...
Classical (surfactant stabilized) and Pickering (particle stabilized) type emulsions have been widel...
Practically irreversible attachment of partially wettable particles to liquid-liquid interfaces pres...
The stabilization of emulsions by a mixture of oppositely charged nanoparticles is investigated in r...
Oil-in-water emulsions were formed and stabilized at low amphiphile concentrations by combining hydr...
Formation and stability of emulsions is one of the important topics in the field of colloids and int...
The immense nanotechnology advances in other industries provided opportunities to rapidly develop va...
The incorporation of soft hydrophilic particles at the interface of water in non-polar oil emulsion ...
Here, we report a novel ‘double Pickering stabilization’ of W/O emulsions, where complex formation a...
Typical Pickering emulsions accumulate particles to form a robust colloidal layer at an immiscible l...
Oil/water emulsions are usually stabilized either by interfacial modification using nanoparticles an...
We propose a novel route for the stabilization of oil-in-water Pickering emulsions using inherently ...
Oil-in-water emulsions were formed and stabilized at low amphiphile concentrations by combining hydr...