Add to ORKGSeveral chemical processes involve the use of mutually immiscible molecules, for example a water-soluble catalyst is used in combination with oil-soluble reagents. There are two possible strategies to run these processes. A mutual solvent can be used to promote mixing of the otherwise immiscible molecules; however, such a system would make the separation of the product challenging. Biphasic systems comprising two immiscible phases can host both polar and apolar species and at the same time allowing separation of molecules of different polarity by simple phase partitioning. Two forms of biphasic reactive separation systems have been studied: emulsion-based and membrane-based systems. However, the efficiency of these systems can be further en...
Fluid-bicontinuous gels are unique materials that allow two distinct fluids to interact through a pe...
Fluid interfaces are versatile sites for materials assembly; molecules and particles alike adsorb at...
Colloidal particles with appropriate wetting properties can become very strongly trapped at an inter...
Several chemical processes involve the use of mutually immiscible molecules, for example a water-sol...
Pickering emulsions have been successfully used as media for catalysis and separation. However, simu...
Although enzymes are efficient catalysts capable of converting various substrates into desired produ...
The liquid-liquid phase separation of binary fluids, induced by a temperature quench, can be arreste...
In this chapter the aim is to focus on bijels where the two phases are aqueous solutions of biologic...
Bicontinuous jammed emulsions (or bijels) are tortuous, interconnected structures of two immiscible ...
Composite materials generally consist of different components which individually exhibit an entirel...
Bicontinuous jammed emulsions (known as bijels) are Pickering emulsions where oil and water are both...
Bijels are made of non-equilibrium particle-stabilized emulsions with a bicontinuous arrangement of ...
Bicontinuous interfacially jammed emulsion gels, or bijels, is a class of soft material uniquely cha...
The work in this PhD Thesis focused on the separation of incompatible reagents and catalysts in Pick...
Fluid-bicontinuous gels are unique materials that allow two distinct fluids to interact through a pe...
Fluid interfaces are versatile sites for materials assembly; molecules and particles alike adsorb at...
Colloidal particles with appropriate wetting properties can become very strongly trapped at an inter...
Several chemical processes involve the use of mutually immiscible molecules, for example a water-sol...
Pickering emulsions have been successfully used as media for catalysis and separation. However, simu...
Although enzymes are efficient catalysts capable of converting various substrates into desired produ...
The liquid-liquid phase separation of binary fluids, induced by a temperature quench, can be arreste...
In this chapter the aim is to focus on bijels where the two phases are aqueous solutions of biologic...
Bicontinuous jammed emulsions (or bijels) are tortuous, interconnected structures of two immiscible ...
Composite materials generally consist of different components which individually exhibit an entirel...
Bicontinuous jammed emulsions (known as bijels) are Pickering emulsions where oil and water are both...
Bijels are made of non-equilibrium particle-stabilized emulsions with a bicontinuous arrangement of ...
Bicontinuous interfacially jammed emulsion gels, or bijels, is a class of soft material uniquely cha...
The work in this PhD Thesis focused on the separation of incompatible reagents and catalysts in Pick...
Fluid-bicontinuous gels are unique materials that allow two distinct fluids to interact through a pe...
Fluid interfaces are versatile sites for materials assembly; molecules and particles alike adsorb at...
Colloidal particles with appropriate wetting properties can become very strongly trapped at an inter...