An orthogonal polymerization reaction between two monomers partitioned in the two liquid phases of a miniemulsion yielded nanocapsules with various functional groups (sulfonate, amine, carboxylic acid, and poly(ethylene glycol) (PEG). The formation of the nanocapsules could be realized in the presence of a self-healing agent in the liquid core. We present here the conditions for the successful preparation of functional polymer nanocapsules by free-radical polymerization as orthogonal reaction for self-healing materials. The stability of the nanocapsules was assessed by AFM measurements in the dried state as well as in water
This paper describes the progress made toward synthesis and characterization of microencapsulated mo...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
All polymeric materials are subject to thermal, mechanical as well as chemical degradation and destr...
Im Rahmen dieser Arbeit wurden neue Ansätze für das Konzept der kapselbasierten Selbstheilungsmateri...
Advances in the study of composite polymeric materials for structural applications have suggested th...
Self-healing technology offers an autonomic route to repairing damage in advanced polymers to extend...
A series of poly(urea-formaldehyde) (PUF) microcapsules filled with dicyclopentadiene (DCPD) was suc...
Advances in the study of composite polymeric materials for structural applications have suggested th...
Inspired by the current state-of-the-art and the progressing advancements in the field of self-heali...
We report herein the versatility of inverse miniemulsion periphery RAFT polymerization (IMEPP) and p...
Mechanical damage to bulk polymers typically begins as a microcrack, which can lead to eventual fail...
Autonomic self-healing thermosetting polymers or elastomers have been substantially studied, in whic...
Numerous microencapsulation techniques have been developed to encase various chemicals, for which sp...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
Copolymers of styrene and various hydrophilic monomers were synthesized by anionic and free-radical ...
This paper describes the progress made toward synthesis and characterization of microencapsulated mo...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
All polymeric materials are subject to thermal, mechanical as well as chemical degradation and destr...
Im Rahmen dieser Arbeit wurden neue Ansätze für das Konzept der kapselbasierten Selbstheilungsmateri...
Advances in the study of composite polymeric materials for structural applications have suggested th...
Self-healing technology offers an autonomic route to repairing damage in advanced polymers to extend...
A series of poly(urea-formaldehyde) (PUF) microcapsules filled with dicyclopentadiene (DCPD) was suc...
Advances in the study of composite polymeric materials for structural applications have suggested th...
Inspired by the current state-of-the-art and the progressing advancements in the field of self-heali...
We report herein the versatility of inverse miniemulsion periphery RAFT polymerization (IMEPP) and p...
Mechanical damage to bulk polymers typically begins as a microcrack, which can lead to eventual fail...
Autonomic self-healing thermosetting polymers or elastomers have been substantially studied, in whic...
Numerous microencapsulation techniques have been developed to encase various chemicals, for which sp...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
Copolymers of styrene and various hydrophilic monomers were synthesized by anionic and free-radical ...
This paper describes the progress made toward synthesis and characterization of microencapsulated mo...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
All polymeric materials are subject to thermal, mechanical as well as chemical degradation and destr...