In the last years, mixtures of silica nanoparticles and surfactants have been widely and
successfully used to stabilize a multiplicity of aqueous foams and emulsions with current and …

The use of the Janus motif in colloidal particles, ie, anisotropic surface properties on
opposite faces, has gained significant attention in the bottom-up assembly of novel …

In this manuscript, we introduce a simple, off-the-shelf approach for the on-demand creation
of giant unilamellar vesicles (GUVs) or multicompartment synthetic cell model systems in a …

Hypothesis Molecular simulations can provide unique insights into the adsorption and
intermolecular interactions of polycyclic aromatic compounds (PACs) and non-ionic …

Herein, we describe a novel CO2-switchable oil-in-water Pickering emulsion stabilized by
functionalized silica nanoparticles with a trace amount of myristylamidopropyl amine oxide …

Non-homogeneous enzyme-catalyzed systems are more widely used than homogeneous
systems. Distinguished from the conventional biphasic approach, Pickering emulsion …

Herein, we described for the first time a CO2 and redox dual responsive paraffin oil-in-water
Pickering emulsion stabilized by the modified silica nanoparticles with Se-containing tertiary …

Hypothesis Whereas hydrophobic colloidal particles are known to destabilize foams and
emulsions stabilized with surfactants, their use for destabilizing Pickering emulsions is …

Setting superhydrophobic Mycobacterium sp. as an example, the hydrophobic bacteria
acting as demulsifying agents of surfactant-stabilized conventional emulsions, vice versa …

Abstract Hypothesis Pickering emulsions (PEs) once formed are highly stable because of
very high desorption energies (∼ 10 7 k BT) associated with particles adsorbed to the …