Abstract
Over the last decade isoindigo derivatives have attracted much attention due to their high potential in pharmacy and in the chemistry of materials. In addition, isoindigo derivatives can be modified to form supramolecular structures with tunable morphologies for the use in drug delivery. Amphiphilic long-chain dialkylated isoindigos have the ability to form stable solid nanoparticles via a simple nanoprecipitation technique. Their self-assembly was investigated using tensiometry, dynamic light scattering, spectrophotometry, and fluorometry. The critical association concentrations and aggregate sizes were measured. The hydrophilic–lipophilic balance of alkylated isoindigo derivatives strongly influences aggregate morphology. In the case of short-chain dialkylated isoindigo derivatives, supramolecular polymers of 200 to 700 nm were formed. For long-chain dialkylated isoindigo derivatives, micellar aggregates of 100 to 200 nm were observed. Using micellar surfactant water-soluble forms of monosubstituted 1-hexadecylisoindigo as well as 1,1′-dimethylisoindigo were prepared for the first time. The formation of mixed micellar structures of different types in micellar anionic surfactant solutions (sodium dodecyl sulfate) was determined. These findings are of practical importance and are of potential interest for the design of drug delivery systems and new nanomaterials.
Highlights
Studies of amphiphilic isoindigo derivatives have revealed perspectives and high potential in several fields: (i) Supramolecular assemblies of amphiphilic conjugated π-systems can potentially be useful structures with improved tunable optical and electrical properties [1,2,3,4,5]
Morphology, and stability of supramolecular associates and solid nanoparticles of dialkylated isoindigo derivatives depend on the length of the alkyl-chain moiety
Stable solid nanoparticles were obtained for dialkylated isoindigo derivatives with C16H33, and C18H37, their size ranged between 150 and 300 nm
Summary
Studies of amphiphilic isoindigo derivatives have revealed perspectives and high potential in several fields: (i) Supramolecular assemblies of amphiphilic conjugated π-systems can potentially be useful structures with improved tunable optical and electrical properties [1,2,3,4,5]. This makes possible to develop new technologies for biodiagnostics, biomedical applications, Beilstein J. This may be of potential interest in biomedicine for the delivery of drugs or genetic material into cells [34,35]
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