RoLA-FLEX project has made a significant contribution to advancing the technological readiness of Organic and Large Area Electronics (OLAE): The project has addressed the main issues currently hindering the wide adoption of OLAE technology in Organic Liquid Crystal Displays (OLCD) and Organic PhotoVoltaics (OPV) by reducing the processing costs, improving device stability and lifetime, and introducing new laser processing techniques to increase manufacturing speed and process yield. In particular, RoLA-FLEX has developed new metal nanoparticle inks, solution processed metal oxides and organic semiconductors and employed laser printing, laser sintering and scribing techniques to demonstrate two TRL5 applications:
1. Smart energy platform based on indoor OPVs: A 12% indoor power conversion efficiency (PCE) was achieved for large-area, encapsulated OPV modules, tailored to seamlessly integrate with a smart energy platform. These fully solution-processed modules, utilizing industrial manufacturing techniques and the late-stage customization technology for laser back-end cell interconnections, were integrated into a demonstrator that showcases OPV's advantages and RoLA-FLEX's achievements. The platform enables autonomous sensor operation down to 200 lux, with two versions developed: one generating 5 mW under 1000 lux, and another providing 10 mW, both capable of wirelessly transmitting temperature, humidity, and light data over several kilometers.
2. Smart watch with an integrated OLCD based on Organic Thin Film Transistors (OTFT): 14” OTFT backplane samples have been laser processed, delivering digitally fabricated OTFT backplane gates and complex Integrated Gate Driver (IGD) circuits. Initial display batches for OTFT/OLCD modules were assembled as demonstrators proving the successful operation of IGD circuits using organic semiconductors developed within the project. Although the current display resolution is 1.5 to 2 times lower than commercial smartwatch displays, further advancement of the laser printing process is expected to to reduce gate line width and enhance OLCD resolution and contrast ratio. The electronics necessary for driving the OTFT/OLCD display have been developed and a non-functional early prototype has been assembled and integrated the final OTFT/OLCD display module.
Regarding the dissemination and exploitation activities, 13 scientific paper publications, and 12 conference presentations have involved the project's results. Monitoring of waste management, IPR development, and data collection for manufacturing cost analysis report were conducted. The Commercialization Roadmap for Application 1 was drafted, comprising OPV market penetration strategy, the associated value chain and the future commercial targets. The Commercialization Roadmap for Application 2 consisted in smart watch and wearable display market penetration strategy, the associated value chain and the future commercial targets.