Description du projet
Une meilleure technologie d’affichage OLED pour l’Europe
Le projet HEL4CHIROLED, financé par l’UE, vise à améliorer les diodes électroluminescentes organiques (OLED), en Europe en formant des chercheurs en début de carrière. Le projet développera une nouvelle conception des technologies OLED, en élaborant de nouveaux ensembles de matériaux et de nouvelles approches tirant parti des technologies émergentes afin d’améliorer les performances des écrans basés sur les OLED. HEL4CHIROLED prendra la forme d’une collaboration entre partenaires académiques et industriels qui procéderont à un échange de meilleures pratiques. Le projet vise à former des chercheurs en début de carrière dans des laboratoires de renommée mondiale afin qu’ils soient particulièrement bien placés pour contribuer au développement des dispositifs optoélectroniques, des technologies d’imagerie et des écrans innovants du futur.
Objectif
In the HEL4CHIROLED project, coordinated by a woman, the principal research goal is the preparation of chiral Organic Light-Emitting Diodes (OLEDs) and Organic Light-Emissive Transistors (OLETs) based on new small helical molecules (HEL-PI), helical pi-conjugated oligomers (HEL-OLIGO) and helical lanthanide complexes (HEL-Ln). Such knowledge will provide a paradigm shift in OLED technologies, developing new material sets and approaches that take advantage of i) the Chiral Induced Spin Selectivity (CISS) effect for improved performance in OLEDs and ii) the emission of circularly polarized light (CPL) to improve the performance of displays based on OLEDs, and to allow for additional functionality stereoscopic displays, enhanced bandwidth optical communication, etc). Efficient circularly polarized (CP) emissive OLEDs and OLETs and Spin Selective devices (Spin-OLEDs and Spin-OLETs) are targeted. The input of private sector beneficiaries and partners is critical to the scientific objectives, as well as to the enhanced training environment. Work packages combine involvement from both academic and private sectors that will feed into the overall goal through secondments, regular virtual meetings and face-to-face network meetings. The symbiosis of the developments that will take place in HEL4CHIROLED will create a research and training environment that is world-leading and optimally tailored to capitalise, for example, on the investment that has been made on chirality-related technologies. The ESRs will be trained in world-leading laboratories and/or in private beneficiaries and will benefit from the exchange of best practice among beneficiaries and partners, and from unique training events. HEL4CHIROLED will therefore ensure that European research remains competitive in the global market, and that the trained researchers will be uniquely well-placed to contribute to the development of novel optoelectronic devices, displays and imaging technology of the future.
Champ scientifique
Programme(s)
Régime de financement
MSCA-ITN - Marie Skłodowska-Curie Innovative Training Networks (ITN)Coordinateur
75794 Paris
France