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Terbium-Doped and Dual-Passivated γ-CsPb(I 1- x Br x ) 3 Inorganic Perovskite Solar Cells with Improved Air Thermal Stability and High Efficiency.

Sawanta S MaliJyoti V PatilSachin R RondiyaNelson Y DzadeJulian A SteeleMohammad Khaja NazeeruddinPramod S PatilChang Kook Hong
Published in: Advanced materials (Deerfield Beach, Fla.) (2022)
Realizing photoactive and thermodynamically stable all-inorganic perovskite solar cells (PSCs) remains a challenging task within halide perovskite photovoltaic (PV) research. Here, a dual strategy for realizing efficient inorganic mixed halide perovskite PV devices based on a terbium-doped solar absorber, that is, CsPb 1- x Tb x I 2 Br, is reported, which undertakes a bulk and surface passivation treatment in the form of CsPb 1- x Tb x I 2 Br quantum dots, to maintain a photoactive γ-phase under ambient conditions and with significantly improved operational stability. Devices fabricated from these air-processed perovskite thin films exhibit an air-stable power conversion efficiency (PCE) that reaches 17.51% (small-area devices) with negligible hysteresis and maintains >90% of the initial efficiency when operating for 600 h under harsh environmental conditions, stemming from the combined effects of the dual-protection strategy. This approach is further examined within large-area PSC modules (19.8 cm 2 active area) to realize 10.94% PCE and >30 days ambient stability, as well as within low-bandgap γ-CsPb 0.95 Tb 0.05 I 2.5 Br 0.5 (E g  = 1.73 eV) materials, yielding 19.01% (18.43% certified) PCE.
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