OLED technology takes a major step forward

“We were able to set two world records: a bandwidth of 450 MHz and a transmission throughput of almost 3GB/sec, which is more than twice the previous record established in 2020." highlights Luc Maret, Project Manager at CEA-Leti.

 CEA-Leti researchers were able to set up a characterization and optimization testbench for point-to-point optical transmission that unites all various parts of the system. As part of this process, an innovative Micro-OLED was designed to increase its potential bandwidth. In addition, the time/frequency envelope of the polarization current was optimized to maximize the efficiency of the transmission.

To create a micro-OLED that meets the need for a GB/sec transmission data rate, researchers had to find the best compromise between speed, light performance and size of the optical device. In other words, they had to design an innovative stack of organic layers that would improve light emissions while reducing the size of the Micro-OLED to 40 µm.

Organic materials to meet challenges in resource sovereignty

Creating a high-performance Micro-OLED is no easy challenge: 

“To achieve this innovative solution, we had to evaporate 7 layers of various organic materials while precisely controlling how they fit together and stack. This requires a particularly precise use of a stencil and a highly controlled set of steps to encapsulate the layers in the final stages of the process," explains Christelle Laugier, Lab Technician at CEA-Leti.

Despite the challenges of this process, this strategy supports a growing need for sovereignty in terms of resources and production capabilities. 

“Demand for Micro-LEDs has grown enormously across industries that rely on efficient, high-performing display and communication systems. Organic LEDs offer a promising path to diversify CEA-Leti's portfolio and ensure sovereignty in years to come." underlines Vygintas Jankus, OLED and MicroLED Business Developer at CEA-Leti.​

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