Abstract
Individual dendritic branches can solubilise hydrophilic dyes in apolar media. The functional group at the focal point of the dendritic branch plays a key role in the dye uptake process. Supramolecular interactions between carboxylic acid and amine groups have been shown to be effective in enabling efficient solubilisation to occur. The necessary complementarity of this interaction is further illustrated by a series of control experiments. The extent of dendritic branching (i.e. dendritic generation) plays a key role in controlling the extent of dye uptake, with higher-generation dendritic branches exhibiting more efficient uptake at lower concentrations. UV/Visible spectroscopic methods have shown that the dendritic branches, in addition to the tuning of the extent of dye uptake, also tune the optical properties of the solubilised dye and this provides further insight into the interactions occurring between the solubilised dye and the individual dendritic branches. Furthermore, it is shown that suitably functionalised dendritic branches can transport hydrophilic dyes through an apolar phase and deliver them continuously into an aqueous medium.
Original language | English |
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Pages (from-to) | 4730-4739 |
Number of pages | 10 |
Journal | Chemistry - A European Journal |
Volume | 7 |
Issue number | 21 |
Publication status | Published - 5 Nov 2001 |
Keywords
- aggregation
- dendrimers
- dyes/pigments
- hydrogen bonds
- supramolecular chemistry
- MOLECULAR RECOGNITION
- CASCADE POLYMERS
- UNIMOLECULAR MICELLES
- SELECTIVE RECOGNITION
- ENCAPSULATED GUESTS
- NONPOLAR-SOLVENTS
- DENDRIMERS
- CHEMISTRY
- CORE
- WATER