Add to ORKGLocking nonequilibrium shapes of liquids into targeted architectures by interfacial jamming of nanoparticles is an emerging area in material science. 5,10,15,20-tetrakis(4-sulfonatophenyl) porphyrin (H6 TPPS) shows three different aggregation states that present an absorption imaging platform to monitor the assembly and jamming of supramolecular polymer surfactants (SPSs) at the liquid/liquid interface. The interfacial interconversion of H6 TPPS, specifically H4 TPPS2- dissolved in water, from J- to an H-aggregation was induced by strong electrostatic interactions with amine-terminated polystyrene dissolved in toluene at the water/toluene interface. This resulted in color-tunable liquids due to interfacial jamming of the SPSs formed between...
Nanoparticle surfactants (NPSs) assembled at the oil-water interface can significantly lower the int...
Environmental pressures are driving detergent formulations to become ever-more so- phisticated blend...
Photoactive shape-changing particles offer a promising platform for smart materials with tunable pro...
Locking nonequilibrium shapes of liquids into targeted architectures by interfacial jamming of nanop...
The strong electrostatic interactions at the oil-water interface between a small molecule, 5,10,15,2...
Supramolecular structures based on organized assemblies of macrocyclic chromophores, particularly po...
One of the many evolved functions of photosynthetic organisms is to synthesize light harvesting nan...
The design of covalently linked porphyrins envisages the goal of applying it to molecular photonic d...
Supramolecular structures based on organized assemblies of macrocyclic chromophores, particularly po...
Nanostructures that are inaccessible through spontaneous thermodynamic processes may be formed by su...
Polyoxometalates (POMs) using {Mo72V30} as an example, dissolved in water, can interact with amine-t...
The jamming of nanoparticle surfactants (NPSs) at liquid-liquid interface imparts attractive propert...
In this work, we prepared color-changing colloids by using the electrostatic self-assembly approach....
With the interfacial jamming of nanoparticles (NPs), a load-bearing network of NPs forms as the area...
Using host-guest molecular recognition at the oil-water interface, a new type of photoresponsive nan...
Nanoparticle surfactants (NPSs) assembled at the oil-water interface can significantly lower the int...
Environmental pressures are driving detergent formulations to become ever-more so- phisticated blend...
Photoactive shape-changing particles offer a promising platform for smart materials with tunable pro...
Locking nonequilibrium shapes of liquids into targeted architectures by interfacial jamming of nanop...
The strong electrostatic interactions at the oil-water interface between a small molecule, 5,10,15,2...
Supramolecular structures based on organized assemblies of macrocyclic chromophores, particularly po...
One of the many evolved functions of photosynthetic organisms is to synthesize light harvesting nan...
The design of covalently linked porphyrins envisages the goal of applying it to molecular photonic d...
Supramolecular structures based on organized assemblies of macrocyclic chromophores, particularly po...
Nanostructures that are inaccessible through spontaneous thermodynamic processes may be formed by su...
Polyoxometalates (POMs) using {Mo72V30} as an example, dissolved in water, can interact with amine-t...
The jamming of nanoparticle surfactants (NPSs) at liquid-liquid interface imparts attractive propert...
In this work, we prepared color-changing colloids by using the electrostatic self-assembly approach....
With the interfacial jamming of nanoparticles (NPs), a load-bearing network of NPs forms as the area...
Using host-guest molecular recognition at the oil-water interface, a new type of photoresponsive nan...
Nanoparticle surfactants (NPSs) assembled at the oil-water interface can significantly lower the int...
Environmental pressures are driving detergent formulations to become ever-more so- phisticated blend...
Photoactive shape-changing particles offer a promising platform for smart materials with tunable pro...