A novel unsymmetrically substituted chiral amphiphilic perylene diimide with two different quaternary stereocenters was synthesized. For comparison, symmetrically substituted chiral perylene diimide containing the same quaternary stereocenters was prepared. The dehydroabietylamine was specifically selected in order to minimize stacking properties and maximize solubility. Intermolecular interactions kept under control via l-lysine moiety. The specific optical rotation ([α]D20,alpha) of symmetrically and unsymmetrically substituted perylene dyes measured at 20 °C in chloroform as -105 and +200, respectively. Both of the compounds have excellent solubility in a wide range of organic solvents and symmetrically substituted chiral perylene diimide gives strong fluorescence emission (632 nm) in solid state. Concentration dependent self-aggregation of both compounds results in tunability of fluorescence emission. Compounds are thermally, photophysically and electrochemically stable.

A novel unsymmetrically substituted chiral amphiphilic perylene diimide: Synthesis, photophysical and electrochemical properties both in solution and solid state

ZANARDI, Chiara;
2016-01-01

Abstract

A novel unsymmetrically substituted chiral amphiphilic perylene diimide with two different quaternary stereocenters was synthesized. For comparison, symmetrically substituted chiral perylene diimide containing the same quaternary stereocenters was prepared. The dehydroabietylamine was specifically selected in order to minimize stacking properties and maximize solubility. Intermolecular interactions kept under control via l-lysine moiety. The specific optical rotation ([α]D20,alpha) of symmetrically and unsymmetrically substituted perylene dyes measured at 20 °C in chloroform as -105 and +200, respectively. Both of the compounds have excellent solubility in a wide range of organic solvents and symmetrically substituted chiral perylene diimide gives strong fluorescence emission (632 nm) in solid state. Concentration dependent self-aggregation of both compounds results in tunability of fluorescence emission. Compounds are thermally, photophysically and electrochemically stable.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10278/5012106
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