Pressure-Induced Void and Crack Closure Improves the Photoconversion Efficiency and Stability of Perovskite Solar Cells

Autor: R. K. Koech, S. A. Adeniji, O. K. Oyewole, Lyubov V. Titova, Reisya Ichwani, Jaya Cromwell, Benjamin Agyei-Tuffour, Erika Colin Ulloa, Omolara Oyelade, Nancy A. Burnham, D. O. Oyewole, Juan Hinostroza Tamayo, Winston O. Soboyejo, Ridwan Ahmed
Rok vydání: 2020
Předmět:
Popis: One route to a brighter global energy future may be through enhancing the efficiency and stability of perovskite solar cells (PSCs), which depends on the level of defects in the photoactive absorber and along the interfaces of the multilayered structure. Here, we use a combined experimental and theoretical approach to study the effects of pressure-induced compaction of microvoids and closure of cracks on the power conversion efficiency (PCEs) and stability of formamidinium-rich PSCs. A range of mechanical pressures was applied to the PSCs to reduce pre-existing grain-boundary voids and interfacial cracks within the devices. The PCEs of the PSCs increased from ~19.5% to ~ 23.5% for applied pressures between ~ (0 – 7) MPa. Unlaminated device stability increased by 33%, falling to 80% of initial PCE in 1800 hrs without compression, as compared to 2400 hrs with compression. The implications of this study are discussed in light of possible future manufacturing processes.
Databáze: OpenAIRE