Open Access
Research Paper
Influence of MAPBI3 Annealing Temperature on Perovskite Solar Cell
Tung-Lung Wu1, Jenn-Kai Tsai2*, Ya-Zhu Song2, Tang-Kai Chen2, Tian-Chiuan Wu2, Kao-Wei Min3, Ming-Ta Yu4 and Chi-Ting Ho4
1School of Mechanical and Automotive Engineering, Zhaoqing University, Zhaoqing, Guangdong 516260, China
2Department of Electronic Engineering, National Formosa University, Yunlin County 632, Taiwan
3College of Engineering, National Formosa University, Yunlin County 632, Taiwan
4Department of Mechanical Design Engineering, College of Engineering, National Formosa University, Yunlin County 632, Taiwan
Received:February 01, 2022; Revised:February 22, 2022; Accepted:March 01, 2022; Published:March 30, 2022
Abstract:
This study mainly is carried out to discuss the effect of nitrogen annealing temperature on perovskite solar cells. The annealing temperature affects perovskite solar cells during the annealing process. It also affects the formation of perovskite crystals. Perovskite crystals need to form in a nitrogen box for manufacturing Perovskite solar cells. Spin-coating MAPbI3 on the substrate is annealed with a nitrogen furnace tube to form perovskite crystals. The remaining PbI2 after the annealing is completed to improve the efficiency of perovskite solar cells. The optimal temperature for the formation of perovskite crystals is found by adjusting the annealing temperature. By using UV-visible spectrometer, field emission-scanning electron microscope, and measurements of photoelectric conversion efficiency, cell structure and optoelectronic properties are analyzed as the final results.
Keywords:
Perovskite, MAPBI3, Annealing temperature, Solar cell
*Corresponding author; e-mail: tsaijk@nfu.edu.tw
Citation:Wu, T.L.; Tsai, J.K.; Song, Y.Z.; Chen, T.K.; Wu, T.C.; Min, K.W.; Yu, M.T.; Ho, C.T.Influence of MAPBI3 Annealing Temperature on Perovskite Solar Cell.
Applied Functional Materials 2022,
2, 67-73.
https://doi.org/10.35745/afm2022v02.01.0005
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2022
The Author(s). Published with license by IIKII, Singapore. This is an Open Access article distributed under the terms of the
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