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سيف مبخوت حمود قايد SAIF MABKHOT HAMOOD QAID

أستاذ مشارك

عضو هيئة تدريس بقسم الفيزياء والفلك

كلية العلوم
College of Science_Building 4, Physics and Astronomy Dept. Office 2A27
المنشورات
مقال فى مجلة
2026

Continuously graded-doped SnO2 for efficient n–i–p perovskite solar cells

Conventional n–i–p architecture remains a robust platform for scalable perovskite photovoltaics1,2, yet its steady-state efficiency has stagnated at about 26% (ref. 3), lagging behind their p–i–n counterparts4. This performance gap arises from persistent non-radiative recombination at textured electron transport layer (ETL)/perovskite interfaces, yet the underlying physical origin remains unknown. Here we show that these losses originate from the synergistic combination of band misalignment and electron accumulation at the buried interface. To address this dual challenge, we develop a continuously graded n+/n-doped SnO2 ETL through a ligand-competitive binding strategy, which enables spatially defined doping that creates a built-in electric field. This graded architecture simultaneously minimizes band offset and accelerates electron extraction, thereby effectively suppressing the cross-interface recombination. The resulting n–i–p perovskite solar cells (PSCs) achieve a certified steady-state power conversion efficiency (PCE) of 27.17% (27.50% in reverse scan), the highest for n–i–p PSCs reported so far. The scalability of this strategy is further demonstrated by achieving a PCE of 25.79% for a 1 cm2 device and 23.33% for a perovskite module with a 16.02 cm2 aperture area. This work establishes a generalized example for energy-band engineering in metal-oxide transport layers, overcoming a fundamental efficiency bottleneck in conventional perovskite photovoltaics.

اسم الناشر
Nature Publishing Group UK
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