Control of the Aggregation of a Phenylenevinylenediimide Chromophore by Use of Supramolecular Chemistry: Enhanced Electroluminescence in Supramolecular Organic Devices

Abstract

A new approach toward the tuning of the supramolecular organization of π-conjugated substructures containing imide functional groups has been investigated using the concept of supramolecular chemistry. This approach, which allows enhanced emission properties of the active material, was evaluated in the fabrication of optoelectronic devices. A linear ditopic chromophore H-ImPV was synthesized. This N−H imide constitutes a recognizing unit with an acceptor−donor−acceptor (ADA) hydrogen bond motif. End-capping of this new chromophore with a monotopic structuring unit allowed control of the supramolecular aggregation of the π-conjugated chromophore. The studies of the absorption and emission properties of the H-ImPV, in solution or in the solid state (thin films, powders), clearly revealed different aggregation behaviors, depending on the presence of the monotopic structuring unit: hindered unit (Cy-DAT) led to the formation of J-aggregates. In all cases, evidence for the heteromolecular association H-ImPV· ·...