OSA-Direct
Tuesday, 11 Dec 2018

Merck launches joint project to conduct basic research on quantum materials as light sources

ELQ-LEDs to deliver ultrapure colors and higher energy efficiency at lower production costs


5 Feb 2018 | Editor

Merck has announced it will hold the leadership role in a recently funded the joint project entitled "Exploration of quantum materials – New paths to realizing innovative optoelectronic components (ELQ-LED)".

The aim of the project, which will receive total funding of € 5.5 million from the German Federal Ministry of Education and Research (BMBF), is to develop quantum materials for innovative applications in the display and lighting industries. The total budget of the project amounts to € 9.1 million.

The project partners are Merck, OSRAM OLED, the Fraunhofer Institute for Applied Polymer Research, the University of Augsburg, Ludwig Maximilians University in Munich, and Carl von Ossietzky University of Oldenburg have joined forces representing all part of the organic electronics value chain in order to demonstrate the basic applicability of quantum materials in lighting.

In addition to conducting research on quantum materials, the partners plan to test and develop components, processes, matrix materials, transport materials, and inks following the comprehensive approach. All components are to be completely printable to save resources during production. The printed parts are being tested in display and automotive tail light demonstrators. The research project is scheduled to run for three years, ending in summer 2020.

According to the announcement modern light sources such as OLEDs must satisfy stringent requirements; high image quality and extremely slim, highly energy-efficient designs.

With quantum materials as emitters, these advantages are now to be further exploited while simultaneously reducing costs and optimizing colour spectra. The resulting innovative component utilising the quantum materials is called an electroluminescent quantum materials-based light-emitting diode (ELQ-LED).

Quantum materials feature even greater color intensity, which can be controlled by the particle size. The toxic metal cadmium is deliberately not being used in the development of materials in order to preserve the safety of OLEDs.

Merck, OSRAM OLED, the Fraunhofer Institute for Applied Polymer Research, the University of Augsburg, Ludwig Maximilians University in Munich, and Carl von Ossietzky University of Oldenburg have joined forces as partners along the organic electronics value chain in order to demonstrate the basic applicability of quantum materials in lighting. In addition to conducting research on quantum materials, the partners plan to test and develop components, processes, matrix materials, transport materials, and inks following the comprehensive approach. All components are to be completely printable to save resources during production. The printed parts are being tested in display and automotive tail light demonstrators. The research project is scheduled to run for three years, ending in summer 2020.

"ELQ-LEDs represent a systematic refinement of OLEDs and offer great potential for synergies between OLED and quantum materials."


Michael Grund, Head of OLED and Quantum Materials at Merck