| Pizza oven processing of organohalide perovskites (POPOP): a simple, versatile and efficient vapor deposition method
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| In situ buried interface engineering towards printable Pb-Sn perovskite solar cells
K. Pious, J., Lai, H., Hu, J., Luo, D., Gilshtein, E., Siegrist, S., … Fu, F. (2024). In situ buried interface engineering towards printable Pb-Sn perovskite solar cells. ACS Applied Materials and Interfaces, 16(30), 39399-39407. https://doi.org/10.1021/acsami.4c07083 |
| Sputtered NiO interlayer for improved self-assembled monolayer coverage and pin-hole free perovskite coating for scalable near-infrared-transparent perovskite and 4-terminal all-thin-film tandem modules
Kothandaraman, R. K., Siegrist, S., Dussouillez, M., Krause, M., Lai, H., Pious, J. K., … Fu, F. (2024). Sputtered NiO interlayer for improved self-assembled monolayer coverage and pin-hole free perovskite coating for scalable near-infrared-transparent perovskite and 4-terminal all-thin-film tandem modules. Solar RRL, 2400176 (12 pp.). https://doi.org/10.1002/solr.202400176 |
| Unveiling the GeI<sub>2</sub>-assisted oriented growth of perovskite crystallite for high-performance flexible Sn perovskite solar cells
Lai, H., Olthof, S., Ren, S., Kothandaraman, R. K., Diethelm, M., Jeangros, Q., … Fu, F. (2024). Unveiling the GeI2-assisted oriented growth of perovskite crystallite for high-performance flexible Sn perovskite solar cells. Energy and Environmental Materials. https://doi.org/10.1002/eem2.12791 |
| Enhanced efficiency and stability of wide-bandgap perovskite solar cells via molecular modification with piperazinium salt
Luo, Y., Zhu, J., Yin, X., Jiao, W., Gao, Z., Xu, Y., … Zhao, D. (2024). Enhanced efficiency and stability of wide-bandgap perovskite solar cells via molecular modification with piperazinium salt. Advanced Energy Materials, 14(25), 2304429 (10 pp.). https://doi.org/10.1002/aenm.202304429 |
| Stabilizing solution–substrate interaction of perovskite ink on PEDOT:PSS for scalable blade coated narrow bandgap perovskite solar modules by gas quenching
Siegrist, S., Kurisinkal Pious, J., Lai, H., Kothandaraman, R. K., Luo, J., Vlnieska, V., … Fu, F. (2024). Stabilizing solution–substrate interaction of perovskite ink on PEDOT:PSS for scalable blade coated narrow bandgap perovskite solar modules by gas quenching. Solar RRL, 8(15), 2400447 (10 pp.). https://doi.org/10.1002/solr.202400447 |
| Multifunctional sulfonium-based treatment for perovskite solar cells with less than 1% efficiency loss over 4,500-h operational stability tests
Suo, J., Yang, B., Mosconi, E., Bogachuk, D., Doherty, T. A. S., Frohna, K., … Hagfeldt, A. (2024). Multifunctional sulfonium-based treatment for perovskite solar cells with less than 1% efficiency loss over 4,500-h operational stability tests. Nature Energy, 9, 172-183. https://doi.org/10.1038/s41560-023-01421-6 |
| Synergetic substrate and additive engineering for over 30%-efficient perovskite-Si tandem solar cells
Turkay, D., Artuk, K., Chin, X. Y., Jacobs, D. A., Moon, S. J., Walter, A., … Ballif, C. (2024). Synergetic substrate and additive engineering for over 30%-efficient perovskite-Si tandem solar cells. Joule, 8(6), 1735-1753. https://doi.org/10.1016/j.joule.2024.04.015 |
| Custom-tailored hole transport layer using oxalic acid for high-quality tin-lead perovskites and efficient all-perovskite tandems
Zhu, J., Xu, Y., Luo, Y., Luo, J., He, R., Wang, C., … Zhao, D. (2024). Custom-tailored hole transport layer using oxalic acid for high-quality tin-lead perovskites and efficient all-perovskite tandems. Science Advances, 10(16), eadl2063 (10 pp.). https://doi.org/10.1126/sciadv.adl2063 |
| FireDrone: multi-environment thermally agnostic aerial robot
Häusermann, D., Bodry, S., Wiesemüller, F., Miriyev, A., Siegrist, S., Fu, F., … Kovač, M. (2023). FireDrone: multi-environment thermally agnostic aerial robot. Advanced Intelligent Systems, 5(9), 2300101 (11 pp.). https://doi.org/10.1002/aisy.202300101 |
| Revealing the role of tin fluoride additive in narrow bandgap Pb-Sn perovskites for highly efficient flexible all-perovskite tandem cells
Kurisinkal Pious, J., Zwirner, Y., Lai, H., Olthof, S., Jeangros, Q., Gilshtein, E., … Fu, F. (2023). Revealing the role of tin fluoride additive in narrow bandgap Pb-Sn perovskites for highly efficient flexible all-perovskite tandem cells. ACS Applied Materials and Interfaces, 15(7), 10151-10157. https://doi.org/10.1021/acsami.2c19124 |
| Rational design of Lewis base molecules for stable and efficient inverted perovskite solar cells
Li, C., Wang, X., Bi, E., Jiang, F., Park, S. M., Li, Y., … Yan, Y. (2023). Rational design of Lewis base molecules for stable and efficient inverted perovskite solar cells. Science, 379(6633), 690-694. https://doi.org/10.1126/science.ade3970 |
| 29.9%-efficient, commercially viable perovskite/CuInSe<sub>2</sub> thin-film tandem solar cells
Liang, H., Feng, J., Rodríguez-Gallegos, C. D., Krause, M., Wang, X., Alvianto, E., … Hou, Y. (2023). 29.9%-efficient, commercially viable perovskite/CuInSe2 thin-film tandem solar cells. Joule, 7(12), 2859-2872. https://doi.org/10.1016/j.joule.2023.10.007 |
| Multifunctional additive ethoxy(pentafluoro)cyclotriphosphazene enables safe carbonate electrolyte for SiO<em><sub>x</sub></em>-graphite/NMC811 batteries
Liu, S., Becker, M., Huang-Joos, Y., Lai, H., Homann, G., Grissa, R., … Kühnel, R. S. (2023). Multifunctional additive ethoxy(pentafluoro)cyclotriphosphazene enables safe carbonate electrolyte for SiOx-graphite/NMC811 batteries. Batteries and Supercaps, 6(7), e202300220 (10 pp.). https://doi.org/10.1002/batt.202300220 |
| Improved carrier management via a multifunctional modifier for high-quality low-bandgap Sn–Pb perovskites and rfficient sll-perovskite tandem solar cells
Luo, J., He, R., Lai, H., Chen, C., Zhu, J., Xu, Y., … Zhao, D. (2023). Improved carrier management via a multifunctional modifier for high-quality low-bandgap Sn–Pb perovskites and rfficient sll-perovskite tandem solar cells. Advanced Materials, 35(22), 2300352 (11 pp.). https://doi.org/10.1002/adma.202300352 |
| High-bandwidth perovskite photonic sources on silicon
Ren, A., Wang, H., Dai, L., Xia, J., Bai, X., Butler-Caddle, E., … Zhang, W. (2023). High-bandwidth perovskite photonic sources on silicon. Nature Photonics, 17, 798-805. https://doi.org/10.1038/s41566-023-01242-9 |
| Understanding coating thickness and uniformity of blade-coated SnO<sub>2</sub> electron transport layer for scalable perovskite solar cells
Siegrist, S., Nandi, P., Kothandaraman, R. K., Abdessalem, A., Tiwari, A. N., & Fu, F. (2023). Understanding coating thickness and uniformity of blade-coated SnO2 electron transport layer for scalable perovskite solar cells. Solar RRL, 7(14), 2300273 (7 pp.). https://doi.org/10.1002/solr.202300273 |
| Accounting for fabrication variability in transparent perovskite solar cells for four-terminal tandem applications
Tan, H. Q., Liang, H., Krause, M., Zhao, X., Kothandaraman, R., Carron, R., … Xue, H. (2023). Accounting for fabrication variability in transparent perovskite solar cells for four-terminal tandem applications. Solar RRL, 7(18), 2300339 (13 pp.). https://doi.org/10.1002/solr.202300339 |
| Aging and characterization of high-bandgap perovskites for all thinfilm tandem solar cell devices
Vidani, A. C., Jenatsch, S., Kothandraman, R., Fu, F., Gadola, A., Zuefle, S., & Ruhstaller, B. (2023). Aging and characterization of high-bandgap perovskites for all thinfilm tandem solar cell devices. In G. Li, N. Stingelin, A. F. Nogueira, T. Q. Nguyen, E. Moons, & B. P. Rand (Eds.), Proceedings of SPIE - the international society for optical engineering: Vol. 12660. Organic, hybrid, and perovskite photovoltaics (p. 1266006 (9 pp.). https://doi.org/10.1117/12.2676914 |
| Mismatch of quasi–fermi level splitting and V<sub>oc</sub> in perovskite solar cells
Warby, J., Shah, S., Thiesbrummel, J., Gutierrez-Partida, E., Lai, H., Alebachew, B., … Stolterfoht, M. (2023). Mismatch of quasi–fermi level splitting and Voc in perovskite solar cells. Advanced Energy Materials, 13(48), 2303135 (12 pp.). https://doi.org/10.1002/aenm.202303135 |