The Journal of Physical Chemistry Letters, Journal Year: 2024, Volume and Issue: unknown, P. 10153 - 10161
Published: Sept. 30, 2024
Transparent photovoltaics for building integration represent a promising approach renewable energy deployment. These devices require transparent electrodes to manage transmittance and ensure proper cell operation. In this study, FAPbBr
Language: Английский
Advanced Theory and Simulations, Journal Year: 2024, Volume and Issue: unknown
Published: Nov. 22, 2024
Abstract Semi‐transparent perovskite solar cells (ST‐PSCs) offer a promising pathway for use in building integrated photovoltaic (BIPV) systems instead of conventional panels’ roofs. Furthermore, their potential bifacial operation, allowing light absorption from both sides, creates new opportunities integration as windows, and greatly improves energy harvesting capacities. This combination bifaciality flexibility enhances efficiency adaptability, making them well‐suited into various architectural elements. Herein, this study, the performance 40 different configurations flexible semi‐transparent inverted (BF‐STIPSCs) is explored. Using SCAPS‐1D (version 3.3.11), 3D‐perovskite (PVK) absorber layer modeled combined with polymer‐based electron transport layers (ETLs) such C 60 BCP, along innovative hole (HTLs) including D‐PBTTT‐14, Me‐4PACz, NiOx, PANI, Poly‐TPD, PATAA, SrCuO 2 , V O 5 . Various transparent conductive oxides (TCOs) IWO, ITO, FTO, substrates silver nanowires (AgNWs) two‐dimensional transition carbide (MXene: T CF ) are also examined effects on cells' bifaciality, transparency, stability. Among configurations, PET/Ag NWs:MXenes /SrCuO /(FAPbI 3 0.95 (MAPbBr 0.05 /C /BCP/FTO identified high‐performance structure, achieving power conversion (PCE) ≈26%, enhanced resilience to temperature variations. These results hold great promise perovskite‐based semitransparent real‐world applications.
Language: Английский
Citations
2
Solar RRL, Journal Year: 2024, Volume and Issue: unknown
Published: Oct. 4, 2024
The growing demand for sustainable energy solutions has made the development of scalable, efficient, and cost‐effective perovskite solar cells (PSCs) increasingly important. Wide‐bandgap perovskites (WB‐PSCs) stand out due to their efficiency in low‐light conditions use tandem cells. WB‐PSCs are currently behind conventional PSCs upscaling, with limited success printing wide bandgap PSCs. Developing upscaling methods is essential fully realize potential renewable sector. This research addresses roll‐to‐roll (R2R) slot‐die coating Cs 0.05 FA 0.95 PbBr 3 ‐based by focusing on improving film formation process ink formulation. By adding optimal concentration CsBr performing situ characterization, we obtained films enhanced morphology crystallinity ambient (50% RH), without inducing secondary phase formation. In addition, defects eliminated through introducing DMSO: Butanol (9:1) solvent system. R2R coated wide‐bandgap reaches a power conversion (PCE) up 8.97% under 1‐sun 18.3% PCE indoor conditions. corresponding modules 5 × cm 2 active area achieve 5.8%, representing crucial step towards high‐throughput, production modules.
Language: Английский
Citations
0
The Journal of Physical Chemistry Letters, Journal Year: 2024, Volume and Issue: unknown, P. 10153 - 10161
Published: Sept. 30, 2024
Transparent photovoltaics for building integration represent a promising approach renewable energy deployment. These devices require transparent electrodes to manage transmittance and ensure proper cell operation. In this study, FAPbBr
Language: Английский
Citations
0