Electron accumulation across the perovskite layer enhances tandem solar cells with textured silicon

Oussama Er‐raji; Christoph Messmer; Rakesh R. Pradhan; Oliver Fischer; Vladyslav Hnapovskyi; Sofiia Kosar; Marco Marengo; Mathias List; Jared Faißt; José P. Jurado; Oleksandr Matiash; Hannu P. Pasanen; Adi Prasetio; Badri Vishal; Shynggys Zhumagali; Anil Reddy Pininti; Yashika Gupta; Clemens Baretzky; Esma Ugur; Christopher E. Petoukhoff; Martin Bivour; Erkan Aydın; Randi Azmi; Jonas Schön; Florian Schindler; Martin C. Schubert; Udo Schwingenschlögl; Frédéric Laquai; Ahmed Ali Said; Juliane Borchert; Patricia S. C. Schulze; Stefaan De Wolf; Stefan W. Glunz

doi:10.1126/science.adx1745

Electron accumulation across the perovskite layer enhances tandem solar cells with textured silicon

Oussama Er‐raji(University of Freiburg), Christoph Messmer(University of Freiburg), Rakesh R. Pradhan(King Abdullah University of Science and Technology), Oliver Fischer(University of Freiburg), Vladyslav Hnapovskyi(King Abdullah University of Science and Technology), Sofiia Kosar(King Abdullah University of Science and Technology), Marco Marengo(King Abdullah University of Science and Technology), Mathias List(University of Freiburg), Jared Faißt(University of Freiburg), José P. Jurado(King Abdullah University of Science and Technology), Oleksandr Matiash(King Abdullah University of Science and Technology), Hannu P. Pasanen(King Abdullah University of Science and Technology), Adi Prasetio(King Abdullah University of Science and Technology), Badri Vishal(King Abdullah University of Science and Technology), Shynggys Zhumagali(King Abdullah University of Science and Technology), Anil Reddy Pininti(King Abdullah University of Science and Technology), Yashika Gupta(University of Freiburg), Clemens Baretzky(Fraunhofer Institute for Solar Energy Systems), Esma Ugur(King Abdullah University of Science and Technology), Christopher E. Petoukhoff(King Abdullah University of Science and Technology), Martin Bivour(Fraunhofer Institute for Solar Energy Systems), Erkan Aydın(King Abdullah University of Science and Technology), Randi Azmi(King Abdullah University of Science and Technology), Jonas Schön(University of Freiburg), Florian Schindler(Fraunhofer Institute for Solar Energy Systems), Martin C. Schubert(Fraunhofer Institute for Solar Energy Systems), Udo Schwingenschlögl(King Abdullah University of Science and Technology), Frédéric Laquai(King Abdullah University of Science and Technology), Ahmed Ali Said(King Abdullah University of Science and Technology), Juliane Borchert(University of Freiburg), Patricia S. C. Schulze(Fraunhofer Institute for Solar Energy Systems), Stefaan De Wolf(King Abdullah University of Science and Technology), Stefan W. Glunz(University of Freiburg)

Science

September 4, 2025

10.1126/science.adx1745

Cited by 40

Abstract

Reducing charge carrier transport losses, improving selectivity, and minimizing nonradiative recombination are essential for enhancing the efficiency and stability of perovskite/silicon tandem solar cells. We used a hybrid two-step perovskite deposition method that is compatible with industry-standard textured silicon, incorporating a perovskite surface treatment based on 1,3-diaminopropane dihydroiodide. The interaction of this molecule with the perovskite surface increased the majority charge carrier concentration at the electron-selective contact, which reduced interfacial recombination. Simultaneously, this field-effect passivation increased the electron concentration across the entire intrinsic perovskite absorber, which increased conductivity and reduced transport losses. Combined, this yields high-performance, fully textured perovskite/silicon tandem solar cells, achieving a 1-sun AM1.5G conversion efficiency of 33.1% with an open-circuit voltage of 2.01 volts and an extended outdoor stability in the Red Sea Coast.

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