Publications
Here you will find research papers from our customers and our R&D team that use Fluxim’s R&D tools.
Research Paper — Host anisotropy controls emitter orientation in OLEDs
Nguyễn, B.-M., Kröber, J., Schütz, P., Ruhland, K., May, F., & Brütting, W. (2026). Effect of host anisotropy on phosphorescent emitter orientation and light outcoupling in OLEDs. Advanced Optical Materials, 14, e00002.
Research Paper — AI-driven parameter extraction in perovskite solar cells
Jonas Diekmann, Zitong Yang, Nurlan Tokmoldin, Ziwei Liu, Francisco Peña-Camargo, Zhuofan Xiong, Paria Forozi Sowmeeh, Hongsheng Li, Qiuqiang Kong, Xiaoliang Ju, Felix Lang, Safa Shoaee, Dieter Neher, and Martin Stolterfoht
ACS Energy Letters 0, 0, pp
Research Paper — Amorphous multilayers improve reverse-bias stability in perovskite solar cells
Huang, X., et al. (2026). Amorphous self-assembled multilayers for perovskite solar cells with improved reverse bias stability. Nature Energy.
Research Paper — Machine learning unlocks impedance analysis for perovskite solar cells
Nabil, M., Grau, I., Grau-Crespo, R., Hamad, S., & Anta, J. A. (2026). Inversion of the impedance response towards physical parameter extraction using interpretable machine learning. Advanced Energy Materials.
Research Paper — Ultrathin C60 contacts for perovskite-silicon tandems
Huang, G., Sun, N., Scheer, N., Akel, S., Yang, Q., Klingebiel, B., Bittkau, K., Lambertz, A., Eichel, R.-A., Hausen, F., Kirchartz, T., Rau, U., & Ding, K. (2026). Impact of ultrathin electron-selective contacts on perovskite-silicon tandem solar cells. ACS Energy Letters.
Research Paper — Quantifying Mobile Ions in Perovskite Solar Cells with TAIC
Schmidt, M. C., Alvarez, A. O., Pallotta, R., Seid, B. A., de Boer, J. J., Thiesbrummel, J., Lang, F., Grancini, G., & Ehrler, B. (2026). Quantification of mobile ions in perovskite solar cells with thermally activated ion current measurements. ACS Energy Letters, 11, 409-418.
Research Paper — Electro-thermal energy yield simulations for bifacial all-perovskite tandem modules
Aeberhard, U., Schiller, A., Häusermann, R., Hiestand, R., Blülle, B., Kohlstädt, M., Najafi, M., Veenstra, S., & Ruhstaller, B. (2026). Electro-thermal energy yield simulations for bifacial all-perovskite tandem modules. EPJ Photovoltaics, 17, 12
Research Paper — Transparent Perovskite LEDs with Conductive Oxide Top Electrodes
Forzatti, M., Martínez-Saiz, S., Cervino, M., Stanzani, E., Jenatsch, S., Zeng, Q., Kim, J. S., Kim, D.-H., Yoon, E., Lee, T.-W., Tordera, D., & Bolink, H. J. (2026). Transparent perovskite light-emitting diodes with conductive oxide top electrodes. Advanced Materials, 0, e21688.
Research Paper — Host anisotropy controls phosphorescent emitter orientation and OLED outcoupling
Nguyen, B.-M., Krober, J., Schutz, P., Ruhland, K., May, F., & Brutting, W. (2026). Effect of host anisotropy on phosphorescent emitter orientation and light outcoupling in OLEDs. Advanced Optical Materials.
Research Paper — Efficiency and stability trade-off in sky-blue OLEDs
Tankeleviciute, E., Jenatsch, S., Ruhstaller, B., Zysman-Colman, E., & Samuel, I. D. W. (2026). A trade-off between efficiency and stability in a class of sky-blue organic light-emitting diodes. FlexMat.
Research Paper — Far-field electroluminescence mapping and Setfos cavity fitting for directional micro-LED emission
Rol, F., Altazin, S., Michit, N., Miralles, B., Ballot, C., Aventurier, B., De Martino, P., Le Maitre, P., & Simon, J. (2025). Study of far-field electroluminescence emission to enhance micro-LED performance. Journal of the Society for Information Display, 33, 1123-1134.
Research Paper — Effect of microlens arrays on light extraction efficiency in red and green quantum-dot light-emitting diodes
Suhyun Park, Soobin Sim, Hyeonjun Lee, Hak June Lee, Jeong Woo Park, Jin Su Park, Wan Ki Bae, Hyunkoo Lee,
Effect of microlens arrays on light extraction efficiency in red and green quantum-dot light-emitting diodes,
Micro and Nano Engineering, Volume 29, 2025, 100325, ISSN 2590-0072
Research Paper — Fullerene derivatives reduce recombination losses in ternary organic solar cells
Panagiotopoulos, A., et al. (2026). Fullerene derivative integration controls morphological behaviour and recombination losses in non-fullerene acceptor-based organic solar cells. Materials Horizons.
Research Paper — Tailored PEDOT:PSS phase segregation for high-efficiency flexible all-perovskite tandem solar cells and mini-modules
Lai, H., Zhu, J., Kuo, R.-T., Aeberhard, U., Lin, Z.-H., Mrkyvkova, N., Luo, J., Siegrist, S., Wechsler, P., Shih, C.-J., Siffalovic, P., Chen, C., Tiwari, A. N., Lin, T.-Y., Zhao, D., & Fu, F. (2025). Tailored PEDOT:PSS phase segregation for high-efficiency flexible all-perovskite tandem solar cells and mini-modules. Nature Communications.
Research Paper — Impact of Luminescent Coupling on Perovskite–Silicon Tandem EQE
Zeder S. J., Krucker T., Moia D., Jenatsch S., Artuk K., Wolff C., Ballif C., Ruhstaller B., Aeberhard U.
Solar RRL (2025).
Research Paper: GaAsSb/GaAsN Superlattices for Thin High-Efficiency Solar Cells
Schwarz, M., Gallego Carro, A., Gonzalo, A., Braza, V., Gonzalez, D., Hierro, A., Aeberhard, U., & Ulloa, J. M. (2026). Simulation, optimization, and experimental validation of 1 eV GaAsSb/GaAsN superlattice solar cells. Solar Energy Materials and Solar Cells, 296, 114057.
Research paper: Stabilizing Perovskite Solar Cells at 85 °C via Additive Engineering and MXene Interlayers
Baumann, F., Padilla-Pantoja, J., Caicedo-Roque, J. M., Karimipour, M., Vahedigharehchopogh, N., Santiso, J., Ballesteros, B., Miranda Gamboa, R. A., Tian, Z., Raga, S. R., & Lira-Cantú, M. (2025). Stabilizing perovskite solar cells at 85 °C via additive engineering and MXene interlayers. EES Solar. Royal Society of Chemistry.
Research Paper: White light-emitting electrochemical cells based on metal-free TADF emitters
Tang, S., Tsuchiya, Y., Wang, J., Adachi, C. and Edman, L. (2025), White light-emitting electrochemical cells based on metal-free TADF emitters. Nature Communications, [N/A]: Article 55954-3.
Research paper: Drift-diffusion modeling of blue OLED degradation
Pizano, A., Lampande, R., Cawthorn, R., & Giebink, N. C. (2025). Drift-diffusion modeling of blue OLED degradation. Synthetic Metals, 311, 117797.
Research Paper: Dual Interface Modification for Reduced Nonradiative Recombination in n–i–p Methylammonium-Free Perovskite Solar Cells
Rodriguez-Perez, J.J., Esparza, D., Ans, M., Contreras-Solorio, D.A., Diaz Perez, T., Rodriguez-Pereira, J., Barea, E.M., Zarazua, I., Prochowicz, D., Akin, S., Martinez-Pastor, J.P., Pascual, J., Mora-Seró, I. and Turren-Cruz, S.-H. (2025), Dual Interface Modification for Reduced Nonradiative Recombination in n−i−p Methylammonium-Free Perovskite Solar Cells. ACS Appl. Mater. Interfaces, 17, 8610−8618.