Add to ORKGAmphiphilic self-assembly has become the basis for a wide gamut of materials and co product applications. In many situations however, the best use of self-assembling c fluids comes when their microstructures can be made permanent. The impetus for microstructure can often be such that an alternative non-aqueous media is prefera Highlighted here is a new approach to capturing self-assembly through replacemen in traditional complex fluids with sugars to form room temperature complex glasse Combining solid and liquid properties at the nanoscale, complex glasses have broad applications in encapsulation and materials template synthesis
Amphiphiles are synthetic or natural molecules with the ability to self-assemble into a wide variety...
The functional versatility of a chemical system is ultimately dictated by the availability of distin...
Self-assembled amphiphiles are more common in the realm of aqueous systems than in organic solvents....
Amphiphile self-assembly materials, which contain both a hydrophilic and a hydrophobic domain, have ...
Self-assembly has been recognised as a ubiquitous aspect of modern chemistry. Our understanding and ...
Fluid-like colloidal structures are key components in nature's own functional materials and importa...
Amphiphile self-assembly materials, which contain both a hydrophilic and a hydrophobic domain, have ...
Our purpose is to develop self-assembly of microcompounds into pairs with encapsulation of a functio...
Supramolecular self-assembly of low molecular mass amphiphiles is of topical interest with the urge ...
tGiven the importance of nanomaterials and nanostructures in modern technology, in the past decadesm...
The chemical reactivity of molecules can be significantly enhanced when they are trapped in a confin...
This paper describes a new approach to mesoscale self-assembly in which a stream of nitrogen is used...
Self-assembly is the spontaneous formation of patterns or structures without human intervention. Thi...
Living creatures exists for an important part out of soft material, such as skin, organs and cells, ...
Future nanoscale soft matter design will be guided to a large extent by the teachings of amphiphile ...
Amphiphiles are synthetic or natural molecules with the ability to self-assemble into a wide variety...
The functional versatility of a chemical system is ultimately dictated by the availability of distin...
Self-assembled amphiphiles are more common in the realm of aqueous systems than in organic solvents....
Amphiphile self-assembly materials, which contain both a hydrophilic and a hydrophobic domain, have ...
Self-assembly has been recognised as a ubiquitous aspect of modern chemistry. Our understanding and ...
Fluid-like colloidal structures are key components in nature's own functional materials and importa...
Amphiphile self-assembly materials, which contain both a hydrophilic and a hydrophobic domain, have ...
Our purpose is to develop self-assembly of microcompounds into pairs with encapsulation of a functio...
Supramolecular self-assembly of low molecular mass amphiphiles is of topical interest with the urge ...
tGiven the importance of nanomaterials and nanostructures in modern technology, in the past decadesm...
The chemical reactivity of molecules can be significantly enhanced when they are trapped in a confin...
This paper describes a new approach to mesoscale self-assembly in which a stream of nitrogen is used...
Self-assembly is the spontaneous formation of patterns or structures without human intervention. Thi...
Living creatures exists for an important part out of soft material, such as skin, organs and cells, ...
Future nanoscale soft matter design will be guided to a large extent by the teachings of amphiphile ...
Amphiphiles are synthetic or natural molecules with the ability to self-assemble into a wide variety...
The functional versatility of a chemical system is ultimately dictated by the availability of distin...
Self-assembled amphiphiles are more common in the realm of aqueous systems than in organic solvents....