A chemically bonded monolayer interface enables enhanced thermal stability and efficiency in Pb-Sn perovskite solar cells.
A.S.R. Bati, C. Liu, I.W. Gilley, Charles B. Musgrave III, A. Maxwell, J.A. Steele, Y. Yang, H. Chen, H. Wan, J. Xu, E. Solano, R. Zhang, C. Huang, B. Rehl, N. Lempesis, V. Carnevali, A. Vezzosi, L. Zeng, L. Grater, M. Li, N. Rolston, D. Choi, V. Sláma, U. Rothlisberger, L. Wang, William A. Goddard III, M.G. Kanatzidis, B. Chen, O.M. Bakr, E.H. Sargent
2025Joule11cited
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Bati, A., Liu, C., Gilley, I., III, C. B. M., Maxwell, A., Steele, J., Yang, Y., Chen, H., Wan, H., Xu, J., Solano, E., Zhang, R., Huang, C., Rehl, B., Lempesis, N., Carnevali, V., Vezzosi, A., Zeng, L., Grater, L., Li, M., Rolston, N., Choi, D., Sláma, V., Rothlisberger, U., Wang, L., III, W. A. G., Kanatzidis, M., Chen, B., Bakr, O., & Sargent, E. (2025). A chemically bonded monolayer interface enables enhanced thermal stability and efficiency in Pb-Sn perovskite solar cells.. *Joule*, 102047. https://doi.org/10.1016/j.joule.2025.102047