Publications
Here you will find research Research papers enabled by Fluxim’s development tools
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.
23.2% efficient low band gap perovskite solar cells with cyanogen management
Perera, W. H. K., Webb, T., Xu, Y., Zhu, J., Zhou, Y., Trindade, G. F., Masteghin, M. G., Harvey, S. P., Jenatsch, S., Dai, L., Sathasivam, S., Macdonald, T. J., Hinder, S. J., Zhao, Y., Stranks, S. D., Zhao, D., Zhang, W., Jayawardena, K. D. G. I., Haque, S. A., & Silva, S. R. P. (2025). 23.2% efficient low band gap perovskite solar cells with cyanogen management. Energy & Environmental Science, 18, 439.1
Enhancing Indoor Photovoltaic Efficiency to 37.6% Through Triple Passivation Reassembly and n-Type to p-Type Modulation in Wide Bandgap Perovskites
S. Huang, S. Hou, G. Sanfo, J. Xu, Y. Wang, H. Muwanwella, L. Pfeifer, X. Liu, S. M. Zakeeruddin, Y. Huang, M. Grätzel, M. T. Sajjad, M. Abdi-Jalebi, Enhancing Indoor Photovoltaic Efficiency to 37.6% Through Triple Passivation Reassembly and n-Type to p-Type Modulation in Wide Bandgap Perovskites. Adv. Funct. Mater. 2025, 2502152.
Loss Analysis of Halide-Perovskite Solar Cells Deposited on Textured Substrates
Wang, Y., Hüpkes, J., Ravishankar, S., Klingebiel, B. and Kirchartz, T. (2025), Loss Analysis of Halide-Perovskite Solar Cells Deposited on Textured Substrates. Sol. RRL, 9: 2400829.
Toward Understanding the Built-in Field in Perovskite Solar Cellsthrough Layer-by-Layer Surface Photovoltage Measurements
Gutierrez-Partida, E., Rusu, M., Zu, F., Raoufi, M., Diekmann, J., Tokmoldin, N., Warby, J., Menzel, D., Lang, F., Shah, S., Shoaee, S., Korte, L., Unold, T., Koch, N., Kirchartz, T., & Neher, D., Stolterfoht, M. (2025). Toward understanding the built-in field in perovskite solar cells through layer-by-layer surface photovoltage measurements. ACS Applied Materials & Interfaces, 17(7), Article 7.
Solvent-dripping modulated 3D/2D heterostructures for high-performance perovskite solar cells
Chang, X., Azmi, R., Yang, T. et al. Solvent-dripping modulated 3D/2D heterostructures for high-performance perovskite solar cells. Nat Commun 16, 1042 (2025).
Defect chemistry of mixed ionic-electronic conductors under light: halide perovskites as master example
Moia, D., & Maier, J. (2025). Defect chemistry of mixed ionic-electronic conductors under light: Halide perovskites as master example [Preprint]. arXiv.
Efficiency optimization of lead-free CH3NH3SnI3-based perovskite solar cells through material and structural modifications
Alsulami, Q.A., Redoy, R.A. & Wageh, S. Efficiency optimization of lead-free CH3NH3SnI3-based perovskite solar cells through material and structural modifications. Sci Rep 15, 13170 (2025).
A New Approach to Characterize Charge Transport and Hysteresis in Perovskite Solar Cells
Nogueira, G. L.; Lopez-Richard, V.; Meneghetti Jr., L. A.; Hartmann, F.; Graeff, C. F. O., A New Approach to Characterize Charge Transport and Hysteresis in Perovskite Solar Cells, arXiv 2025
Deciphering the interplay between tin vacancies and free carriers in the ion transport of tin-based perovskites
Huerta Hernandez, L.; Lanzetta, L.; Kotowska, A. M.; Yavuz, I.; Kalasariya, N.; Vishal, B.; Gibert-Roca, M.; Piggott, M.; Scurr, D. J.; De Wolf, S.; Stolterfoht, M.; Baran, D. Deciphering the Interplay between Tin Vacancies and Free Carriers in the Ion Transport of Tin-Based Perovskites. Energy Environ. Sci. 2025, DOI:
23.2% efficient low band gap perovskite solar cells with cyanogen management
Perera, W. H. K.; Zhou, Y.; Webb, T.; Trindade, G. F.; Xu, Y.; Zhu, J.; Masteghin, M. G.; Harvey, S. P.; Macdonald, T. J.; Jenatsch, S.; Dai, L.; Sathasivam, S.; Hinder, S. J.; Stranks, S. D.; Jayawardena, K. D. G. I.; Zhao, D.; Zhao, Y.; Zhang, W.; Haque, S. A.; Silva, S. R. P.
Energy Environ. Sci. 2025, 18, 439–453
Ion Migration in Mesoscopic Perovskite Solar Cells: Effects on Electroluminescence, Open Circuit Voltage, and Photovoltaic Quantum Efficiency
M. A. Torre Cachafeiro, E. L. Comi, S. Parayil Shaji, S. Narbey, S. Jenatsch, E. Knapp, W. Tress, Adv. Energy Mater. 2025, 15, 2403850.
Improved radicchio seedling growth under CsPbI3 perovskite rooftop in a laboratory-scale greenhouse for Agrivoltaics application
Spampinato, C., Valastro, S., Calogero, G. et al. Nat Commu, 16:2190 (2025).
Self-assembled hole-selective contact for efficient Sn-Pb perovskite solar cells and all-perovskite tandems
Zhu, J., Huang, X., Luo, Y. et al. Nat Commun, 240 (2025
Effects of Photon Recycling and Luminescent Coupling in All-Perovskite Tandem Solar Cells Assessed by Full Opto-electronic Simulation
Aeberhard, U., Zeder, S.J. and Ruhstaller, B. (2024), Sol. RRL, 8: 2400264.
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. et al. Nat Commun, 154 (2025).
Highly Soluble CsPbBr 3 Perovskite Quantum Dots for Solution-Processed Light-Emission Devices
Y. Liu, J. Wang, et al.
ACS Applied Nano Materials Article ASAP
Potassium Thiocyanate‐Assisted Enhancement of Slot‐Die‐Coated Perovskite Films for High‐Performance Solar Cells
Fuzong Xu, Stefaan De Wolf, et al.
Small Sci. 2021, 2000044
Efficient wide-bandgap perovskite solar cells enabled by doping a bromine-rich molecule
Rui He, Dewei Zhao et al.
nanoph-2020-0634 2021