In this work, the microenvironment of the core of different unimicelles of hyperbranched polyethyleneimine (HPEI) capped with different aliphatic chains (stearate, palmitate, and laurate) dissolved in toluene has been investigated. To achieve this goal we have used 1-methyl-8-oxyquinolinium betaine (QB) as a molecular probe due to its solvatochromic behavior to monitor the micropolarity and hydrogen bond donor ability of the unimicelle cores. QB shows that the micropolarity and the hydrogen bond donor capability of the polar core of reverse unimicellar media are very different than toluene and similar to the one obtained with traditional surfactants that form reverse micellar media but at a very low unimicelle concentration. Particularly, our results show that the hydrogen bonding ability of the core is the driving force for QB to partition toward the unimicellar media.
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