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Helical systems for chiral organic light emitting diodes

Descripción del proyecto

Mejor tecnología de pantallas OLED para Europa

El proyecto HEL4CHIROLED, financiado con fondos europeos, se propone mejorar la calidad de los diodos orgánicos emisores de luz (OLED, por sus siglas en inglés) en Europa gracias a la formación de investigadores noveles. El proyecto desarrollará conceptos innovadores sobre las tecnologías OLED mediante la creación de conjuntos de materiales y métodos novedosos que capitalicen tecnologías emergentes para mejorar el rendimiento de las pantallas OLED. HEL4CHIROLED consistirá en una colaboración entre socios académicos e industriales que intercambiarán las mejores prácticas. El objetivo del proyecto es formar a investigadores noveles en laboratorios de renombre internacional para que estén en una posición única para contribuir al desarrollo de nuevos dispositivos optoelectrónicos, pantallas y tecnologías de imagen del futuro.

Objetivo

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.

Coordinador

CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
Aportación neta de la UEn
€ 812 956,04
Dirección
RUE MICHEL ANGE 3
75794 Paris
Francia

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Región
Ile-de-France Ile-de-France Paris
Tipo de actividad
Research Organisations
Enlaces
Coste total
€ 812 956,04

Participantes (11)