Article | REF: IN191 V1

À curcumin derivative for organic optoelectronics

Authors: Anthony D'ALEO, Elena ZABOROVA, Frédéric FAGES

Publication date: October 10, 2018

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ABSTRACT

This article describes the photophysical properties of a boron complex of a derivative of curcumin in solution and in the solid state. This compound emits a delayed fluorescence in the near infrared and allows the fabrication of organic electroluminescent diodes effective beyond 700 nm. This dye also has the property of emitting stimulated fluorescence when excited by a pulsed laser. This is the first example of an organic molecule combining both delayed and stimulated emission properties. This work paves the way for the development of a near-infrared organic laser operating under electrical pumping.

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AUTHORS

  • Anthony D'ALEO: Researcher, CNRS - Building Blocks for Future Electronics Laboratory (2-B FUEL), UMI 2002 CNRS-Ewha-Yonsei, Seoul, Korea

  • Elena ZABOROVA: Senior Lecturer, Aix Marseille University - Aix Marseille Univ, CNRS, CINaM UMR 7325, Campus de Luminy, 13288 Marseille, France

  • Frédéric FAGES: Professor, Aix Marseille University - Aix Marseille Univ, CNRS, CINaM UMR 7325, Campus de Luminy, 13288 Marseille, France

 INTRODUCTION

An organic material is electroluminescent when it emits light when subjected to electrical excitation. This physical phenomenon is the basis for the design of organic light-emitting diodes (OLEDs), devices that are currently invading the television and smartphone display markets. This article describes the photophysical properties of an organic dye whose structure is derived from curcumin. In a solid matrix, this compound emits near-infrared fluorescence and electroluminescence. Analysis of fluorescence spectra and decays shows the significant contribution of delayed fluorescence emission, which explains the high external quantum yield (around 10% at 720 nm) of a light-emitting diode. This dye falls into the category of so-called 3rd-generation electroluminescent materials. Unlike all other examples of this type of material, the molecule in question also displays the ability to amplify light from a favorable process of stimulated fluorescence emission. This is the first example of an organic dye to combine these two properties. These results pave the way for the realization of both continuous and electrically pumped organic lasers. The latter represents one of the major challenges in the field of organic lasers. This article describes the photophysical properties of the dye under consideration, based on general concepts describing the excited states of organic molecules and the mechanism of delayed fluorescence.

Key points

Field: organic materials

Degree of technology diffusion: emergence

Technologies involved: organic synthesis, molecular photophysics, stimulated emission, electroluminescence

Applications: organic electronics, organic photonics

Main French players

  • Competitive clusters: Minalogic, SCS

  • Competence centers: AFELIM, Réseau Nanorgasol, GDR CNRS OERA

  • Manufacturers: ARMOR, PCAS (novacap group), Dracula Technologies, Arkema, ISORG

Other global players: Prof. Chihaya Adachi, Kyushu University, Fukuoka (Japan); Prof. Sir Richard Friend, Cavendish Laboratory, Cambridge University (UK); Samsung, LG, Merck, Cambridge Display Technology

Contact: Frédéric Fages, [email protected]

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A curcumin derivative for organic optoelectronics