期刊
SOLAR ENERGY
卷 220, 期 -, 页码 43-50出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.solener.2021.01.052
关键词
Organic-inorganic hybrid lead halide perovskite; Photovoltaic; Indoor LED light source; Crystal structure; Charge collection; Trap-assisted recombination
资金
- Technology Development Program to Solve Climate Changes of the National Research Foundation - Ministry of Science, ICT & Future Planning [NRF-2016M1A2A2940912]
Organic-inorganic hybrid lead halide perovskite materials with varying crystal structures and optical bandgaps have been investigated for their potential in energy harvesting. The replacement of I- with Br- was found to influence the crystal structure and bandgap, leading to differences in photovoltaic performance. The study highlights the importance of crystal structure variation in achieving high open-circuit voltage in perovskite photovoltaic cells under low-intensity ambient light sources.
Organic-inorganic hybrid lead halide perovskite materials with the general formula MAPbI(3-n)Br(n) (n = 0, 1, 2, and 3) exhibiting a range of crystal structures and a wide range of optical bandgaps are explored for their potential to harvest energy from ambient light sources. The replacement of I- with Br- is found to transform the perovskite crystal structure from the tetragonal for MAPbI(3) to the pseudo cubic for MAPbI(2)Br and MAPbIBr(2) and cubic for MAPbBr(3) while increasing the optical bandgap from 1.59 eV to 2.31 eV. Photovoltaic cells (PVCs) are constructed using these perovskites and are found to exhibit power conversion efficiencies (PCEs) of 29.83 (MAPbI(3)), 23.75 (MAPbI(2)Br), 21.47 (MAPbIBr(2)), and 19.94% (MAPbBr(3)) under LED light illumination (1000 lux; similar to 0.371 mW cm(-2)), with a record high open-circuit voltage (V-OC) of 1.15 V being observed for the MAPbBr(3). The effect of crystal structure variation on the charge carrier mobility, trap states, recombination losses, photovoltaic properties, and operational stabilities has been investigated systematically under indoor illumination. Overall, this work provides a clear vision on the influence of perovskite crystal structures upon the photovoltaic properties and shows a pathway to achieve high V-OC in perovskite PVCs under low-intensity ambient light sources.
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