Publications
Here you will find research Research papers enabled by Fluxim’s development tools
Research Paper: Pressure Engineering to Enable Improved Stability and Performance of Metal Halide Perovskite Photovoltaics
Burgard, E., Penukula, S., Casareto, M. and Rolston, N. (2025), Pressure Engineering to Enable Improved Stability and Performance of Metal Halide Perovskite Photovoltaics. Molecules, 30: 1292.
Research paper: Bulk Passivation of Lead Halide Perovskites: The Key to High-Performance Indoor Photovoltaics at Very Low-Light Intensities
Karpiola, E., Grandhi, G.K., Doyranli, C., Han, Y., Alexander, A., Jagadamma, L.K., Tewari, A., Manna, D. and Vivo, P. (2025), Bulk Passivation of Lead Halide Perovskites: The Key to High‐Performance Indoor Photovoltaics at Very Low‐Light Intensities. Solar RRL, 11
Research Paper: Dopant-free hydrophobic fluorene-based HTMs with methoxy-triphenylamine and carbazole groups for improved perovskite solar cell performance
Bhat, V.G., Keremane, K.S., Subramanya, K.S., Archana, S., Hegde, A., Asuo, I.M., Poudel, B. and Dalimba, U.K. (2025), Dopant-free hydrophobic fluorene-based hole transport materials: impact of methoxy-substituted triphenylamine and carbazole peripheral groups on the performance of perovskite solar cells. Sustainable Energy Fuels, 9: 2769.
Research Paper: Dicyandiamide‑Driven Tailoring of the n‑Value Distribution and Interface Dynamics for High‑Performance ACI 2D Perovskite Solar Cell
Chen, G., Gan, Y., Wang, S., Liu, X., Yang, J., Peng, S., Zhao, Y., Li, P., Komilov, A., Song, Y., Zhang, Y. (2025), Dicyandiamide‑Driven Tailoring of the n‑Value Distribution and Interface Dynamics for High‑Performance ACI 2D Perovskite Solar Cells. Nano-Micro Lett., 17:305.
Research Paper: Multiple Narrowband Bidirectional Self-Powered Organic Photodetector with Fast Response
Xia, Y. and Georgiadou, D.G. (2025), Multiple Narrowband Bidirectional Self‐Powered Organic Photodetector with Fast Response. Laser & Photonics Reviews, 19, 2401032.
Research Paper: Barrier layer design reduces top electrode ion migration in perovskite solar cells
Penukula, S., Khanal, M.N., Sharma, M., Parashar, M., Kerner, R.A., Chen, M., Davis, M.A., Saha, R.A., Solano, E., Roeffaers, M.B.J., Berry, J.J., Luther, J.M., Steele, J.A., Palmstrom, A., Whiteside, V.R., Rout, B., Sellers, I.R. and Rolston, N. (2025), Barrier layer design reduces top electrode ion migration in perovskite solar cells. EES Sol., 1, 345.
Research Paper: Optimizing 2D passivation for enhancing performance of fully air-processed carbon electrode-based perovskite solar cells
Khawaja, K.A., Vijayaraghavan, S.N., Penukula, S., Xiang, W., Rolston, N., Li, L. and Yan, F. (2025), Optimizing 2D passivation for enhancing performance of fully air-processed carbon electrode-based perovskite solar cells. EES Sol., 1, 620.
Research Paper:Challenges and opportunities for the characterization of electronic properties in halide perovskite solar cells
Kirchartz, T. (2025), Challenges and opportunities for the characterization of electronic properties in halide perovskite solar cells. Chem. Sci., 16: 8153.
Research Paper: Hot carrier dynamics in operational metal halide perovskite solar cells
Afshari, H., Mapara, V., Sourabh, S., Khanal, M. N., Whiteside, V. R., Scheidt, R. A., Beard, M. C., Eperon, G. E., Sellers, I. R., & Furusa, M. (2025), Hot carrier dynamics in operational metal halide perovskite solar cells. EES Solar.
Research Paper: Thermodynamic principles for optimizing multi-junction photovoltaics — Exemplified for perovskite-based indoor photovoltaics
Kay, A.M., Riley, D.B., Burwell, G., & Meredith, P. (2025), Thermodynamic principles for optimizing multi-junction photovoltaics—Exemplified for perovskite-based indoor photovoltaics. APL Energy, 3, 036102.
Research Paper: Overcoming optical losses in thin metal based recombination layers for efficient n-i-p perovskite-organic tandem solar cells
Tian, J., Liu, C., Forberich, K., Barabash, A., Xie, Z., Qiu, S., Byun, J., Peng, Z., Zhang, K., Du, T., Sathasivam, S., Macdonald, T.J., Dong, L., Li, C., Zhang, J., Halik, M., Le Corre, V.M., Osvet, A., Heumüller, T., Li, N., Zhou, Y., Lüer, L. & Brabec, C.J. (2024), Overcoming optical losses in thin metal-based recombination layers for efficient n-i-p perovskite-organic tandem solar cells.
Research Paper: Insights from Impedance Spectroscopy in Perovskite Solar Cells with Self-Assembled Monolayers: Decoding SAM’s Tricks
Aranda, C. A., Li, W., Martínez-Ferrero, E., Pistor, P., Oskam, G., Palomares, E., & Anta, J. A. (2025), Insights from Impedance Spectroscopy in Perovskite Solar Cells with Self-Assembled Monolayers: Decoding SAM’s Tricks. J. Phys. Chem. Lett., 16: 2301−2308.
Research Paper: Quantification of mobile ions in perovskite solar cells with thermally activated ion current measurements
Schmidt, M.C., Alvarez, A.O., Pallotta, R., Seid, B.A., de Boer, J.J., Thiesbrummel, J., Lang, F., Grancini, G. and Ehrler, B. (Preprint), Quantification of mobile ions in perovskite solar cells with thermally activated ion current measurements.
Research Paper: Dopant and Structure Optimization for OLED Microdisplays
Cho, H., Ahn, D. H., Choi, S., Kim, G. H., Joo, C. W., Kang, C., Shin, J.-W., Kim, K., Kwon, B.-H., Byun, C., Cho, N. S., An, Y. J., Kim, J. S., & Youn, H. M. (2025). Strategic use of dopants and device structure optimization for enhanced color gamut and efficiency in organic light-emitting diodes microdisplay applications. Optical Materials, 159, 116571.
Research Paper: Chemical structure and processing solvent of cathode interlayer materials affect organic solar cells performance
Kim, S. Y., Sawangwong, P., Atkinson, C., Welch, G. C., & Doumon, N. Y. (2025). Chemical structure and processing solvent of cathode interlayer materials affect organic solar cells performance. Journal of Materials Chemistry C, 13, 13131–13143
Research Paper: Double-side Interfacial Engineering of Hole Transport Layer Enables Efficient and Operationally Stable Colloidal Quantum Dot Solar Cells
Researchers achieved a record 14.28% efficiency and 520-hour operational stability in PbS CQD solar cells using Fluxim’s Litos Lite. A double-side engineered HTL dramatically improved performance and lifetime in air.
Research Paper: Drift-diffusion modeling of blue OLED degradation
Drift-diffusion modeling of blue OLED degradation by Pizano, A., Lampande, R., Cawthorn, R., & Giebink, N. C. was published in Synthetic Metals (Vol. 299, 2024, Article 117797). This study uses Setfos to simulate luminance loss and voltage rise in blue OLEDs, comparing drift-diffusion modeling with a traditional rate-equation approach.
Research Paper: The Roles of Ion Migration on Perovskite Solar Cell Operational Stability at Various Illumination Intensities
Tanko, K.T., Raga, S.R., Vahedigharehchopogh, N., Baumann, F., Karimipour, M., Miranda-Gamboa, R.A. and Lira-Cantú, M. (2025), The Roles of Ion Migration on Perovskite Solar Cell Operational Stability at Various Illumination Intensities. Sol. RRL, 9: 2500162.
Optimizing Perovskite LEDs and Tandem PV Cells: The Role of Photon-Recycling and Luminescent Coupling in Presence of Strong Light Scattering
Aeberhard, Urs; Blülle, Balthasar; Zeder, Simon; Ruhstaller, Beat (2025). Optimizing Perovskite LEDs and Tandem PV Cells: The Role of Photon-Recycling and Luminescent Coupling in Presence of Strong Light Scattering. AIP Publishing. Collection.
Surfing the Color Map with Carbazole-Appended Cyclometalated N-Heterocyclic Carbene Pt Complexes and Their Application in Green Organic Light-Emitting Devices
J. Roy, M. Forzatti, A. Martín, I. Ara, E. Stanzani, S. Jenatsch, H. J. Bolink, S. Fuertes, D. Tordera, V. Sicilia, Surfing the Color Map with Carbazole-Appended Cyclometalated N-Heterocyclic Carbene Pt Complexes and Their Application in Green Organic Light-Emitting Devices. Adv. Optical Mater. 2025, 2500051.