Dispersed SnO2 colloids using sodium dodecyl benzene sulfonate for high-performance planar perovskite solar cells
- Authors
- Hoang, V.Q.; Lee, Shin Kyu; Bark, Chung Wung
- Issue Date
- Dec-2021
- Publisher
- PERGAMON-ELSEVIER SCIENCE LTD
- Keywords
- Grain boundary; Perovskite solar cells; SnO2-SDBS; Surfactant
- Citation
- Solar Energy, v.230, pp.747 - 753
- Journal Title
- Solar Energy
- Volume
- 230
- Start Page
- 747
- End Page
- 753
- URI
- https://scholarworks.bwise.kr/gachon/handle/2020.sw.gachon/82777
- DOI
- 10.1016/j.solener.2021.10.081
- ISSN
- 0038-092X
- Abstract
- Recently, SnO2-based perovskite solar cells (PSCs) have become more promising than traditional-material-based PSCs because of their simple low-temperature solution approach and low cost; meanwhile, the high-temperature process of mesoporous TiO2-based PSCs still offers a higher power conversion efficiency (PCE). In planar-based PSCs, nonradiative recombination of electron-hole pairs at the SnO2/perovskite interface leads to a loss of potential and a reduced PCE. Here, the SnO2-SDBS electron transport layer (ETL) is employed in PSCs to depress the defects of the SnO2 layer and the grain boundaries of the perovskite film. The surfactant SDBS was used as a wetting agent for SnO2 nanoparticles, to improve dispersibility. In addition, the benzene sulfonic acid group of SDBS attached to the SnO2-SDBS film can control the process of perovskite crystallization, producing a vertically aligned growth and large-grain perovskite layer. Finally, the open-circuit voltage was improved from 1.038 to 1.077 V and the PCE increased from 18.01% to 19.25% in the devices using the SnO2-SDBS ETL. The incorporation of SnO2-SDBS as an ETL paves the way to further performance enhancements of SnO2-based planar PSCs. © 2021 International Solar Energy Society
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