A simple design for stimuli-responsive micellar disassembly has been demonstrated on the basis of a surfactant molecule wherein the hydrophilic head group is connected to the hydrophobic tail through a redox-sensitive disulfide linker. The disassembly kinetics is tuned by mixing the stimuli-responsive surfactant with a suitable nonresponsive co-surfactant in various ratios, which helps in gaining control over the release rate of encapsulated dye molecules from such mixed micelles
Redox responsive molecular self-assemblies are very important in a wide range of applications includ...
Redox responsive molecular self-assemblies are very important in a wide range of applications includ...
Using host-guest chemistries in a biphasic system, a novel supramolecular nanoparticle surfactant (s...
Polymer-based micellar assemblies are gaining increasing attention in the smart materials field, yet...
Supramolecular complex of a cationic surfactant and oppositely charged disulfide containing polyelec...
Amphiphilic polymers of different hydrophilic-lipophilic ratios were prepared by free radical polyme...
A simple strategy for pattern recognition of proteins through micellar disassembly is introduced. Fi...
We report the design and demonstration of a dual-stimuli-responsive block copolymer (BCP) micelle wi...
Polymer-based amphiphilic systems that self-assemble into micelles are widely studied, promising mol...
Transient structural organization as a result of reversible interactions between individual structur...
We report in this paper the release and uptake of charged payloads in redox responsive electrostatic...
Responsive materials, which can adapt and operate autonomously under dynamic conditions, are a stepp...
The disassembly of well-defined random copolymer nanoparticles to unimers at precise times can be pr...
Polymer-based amphiphilic systems that self-assemble into micelles are widely studied, promising mol...
A novel redox-sensitvie cross-linked micelles based on disulfide-linked copolymer were prepared and ...
Redox responsive molecular self-assemblies are very important in a wide range of applications includ...
Redox responsive molecular self-assemblies are very important in a wide range of applications includ...
Using host-guest chemistries in a biphasic system, a novel supramolecular nanoparticle surfactant (s...
Polymer-based micellar assemblies are gaining increasing attention in the smart materials field, yet...
Supramolecular complex of a cationic surfactant and oppositely charged disulfide containing polyelec...
Amphiphilic polymers of different hydrophilic-lipophilic ratios were prepared by free radical polyme...
A simple strategy for pattern recognition of proteins through micellar disassembly is introduced. Fi...
We report the design and demonstration of a dual-stimuli-responsive block copolymer (BCP) micelle wi...
Polymer-based amphiphilic systems that self-assemble into micelles are widely studied, promising mol...
Transient structural organization as a result of reversible interactions between individual structur...
We report in this paper the release and uptake of charged payloads in redox responsive electrostatic...
Responsive materials, which can adapt and operate autonomously under dynamic conditions, are a stepp...
The disassembly of well-defined random copolymer nanoparticles to unimers at precise times can be pr...
Polymer-based amphiphilic systems that self-assemble into micelles are widely studied, promising mol...
A novel redox-sensitvie cross-linked micelles based on disulfide-linked copolymer were prepared and ...
Redox responsive molecular self-assemblies are very important in a wide range of applications includ...
Redox responsive molecular self-assemblies are very important in a wide range of applications includ...
Using host-guest chemistries in a biphasic system, a novel supramolecular nanoparticle surfactant (s...