In SEPOMO, 16 Early Stage Researchers have received cutting edge research training in chemistry, physics, materials science and engineering, with a focus on organic electronics involving the innovative use of spin-effects to the advantage of organic solar cells.
Scientifically, researchers in SEPOMO have developed a new and rapid approach combining machine learning, device modelling and experimental characterization, going all the way from synthesis to device characterization. SEPOMO researchers have provided a perspective on the first progress made in organic- and perovskite-based spintronics, and have built new connections between these two classes of materials by highlighting the pros and cons of each technology, and their potential applications in new multifunctional spintronic devices. Furthermore, the quantification of the open-voltage losses of key Heliatek materials led to a change in assessing the potential of new materials, new targets and design strategies. SEPOMO researchers have prepared modules with commercially available organic blends by slot die roll-to-roll with fullerene and non-fullerene acceptors, and identified the photooxidation of the donor polymer as the main cause for the decrease in the module performance. Finally, SEPOMO researchers have demonstrated the potential of the photon upconversion to better utilize the red/IR radiation.
In total, 51 scientific articles have been published in which SEPOMO researchers are (co-)author(s).