2017年第78回応用物理学会秋季学術講演会

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一般セッション(口頭講演)

1 応用物理学一般 » 1.4 エネルギー変換・貯蔵・資源・環境

[6p-A401-1~14] 1.4 エネルギー変換・貯蔵・資源・環境

2017年9月6日(水) 13:45 〜 17:30 A401 (401)

内田 晴久(東海大)、佐藤 正志(東海大)

15:15 〜 15:30

[6p-A401-7] Enhanced Power Conversion Efficiency of Perovskite Solar Cells Using CH3NH3Ba1-xPbxI3-yCly as Active Layer

〇(D)Shunhsiang Chan1、Mingchung Wu1、Weifang Su2 (1.Chang Gung Uni.、2.National Taiwan Uni.)

キーワード:perovskite solar cell, barium dopant, power conversion efficiency

The organic-inorganic lead halide perovskite solar cell is considered as one of the most promising technology for future photovoltaics because it shows high power conversion efficiency (PCE) and can be fabricated through a simple solution process. Non-toxic alkaline earth metal cations are suitable candidates to replace toxic lead in perovskite because they maintain the charge balance in perovskite and some of them meet tolerance factor of Goldschmidt’s rule. Hence, the Ba2+ were used to replace lead cations partially. The Ba2+ is most suitable for Pb2+ replacement in perovskite film and exhibits the best power conversion efficiency. Furthermore, we studied the crystal structure, absorption behavior and surface morphology of Ba2+-doped perovskite films with different doping levels systematically. The relationship between the charge carrier dynamics and Ba2+ concentration is investigated by time-resolved photoluminescence (TRPL) technique. The Ba2+-doped perovskite films are stable can be processed in the environment containing moisture (1.0% relative humidity). At the optimal 3.0 mol% Ba2+ replacement, the PCE of fabricated solar cell is increased from 11.8 to 14.0%, and the PCE of champion devices is as high as 14.9%.