Abstract
Amphiphilic Janus dendrimers have attracted increasing attention due to their asymmetric structures and various functional properties compared to the conventional symmetric macromolecules. Herein, a novel ferrocenyl‐terminated amphiphilic Janus dendrimer containing nine hydrophilic triethylene glycol branches was synthesized by two synthetic routes, namely the typical chemo selective coupling method and the mixed modular approach. Chemical redox triggers, namely Fe2(SO4)3 as oxidant and ascorbic acid as reductant, could regulate the self‐assembly behavior of the Janus dendrimer in water through the redox‐switching between ferrocene and ferricinium cations, and the change of micelles formed were investigated and confirmed through scanning electron microscopy and dynamic light scattering. The cargo‐loading property of the micelles self‐assembled by the Janus dendrimer was further proved by the successful fabrication of Rhodamine B (RhB)‐loaded micelles, and the oxidation‐triggered release behavior of the encapsulated RhB could be mediated by changing the concentration of oxidants. This work provides an effective approach to prepare ferrocenyl‐terminated amphiphilic Janus dendrimers and the self‐assembled micelles might be used as a promising molecular carrier in areas such as drug delivery and catalysis.
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