2023年第70回応用物理学会春季学術講演会

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12 有機分子・バイオエレクトロニクス » 12.4 有機EL・トランジスタ

[15a-E402-1~11] 12.4 有機EL・トランジスタ

2023年3月15日(水) 09:00 〜 12:00 E402 (12号館)

松島 敏則(九大)、千葉 貴之(山形大)、千葉 貴之(山形大学)

09:15 〜 09:30

[15a-E402-2] Enhanced Hot-Phonon Bottleneck Effect on Slowing Hot Carrier Cooling in Metal Halide Perovskite Quantum Dots With Alloyed A-Site

〇(D)Hua Li1、Dong Liu1、Chao Ding1、Shuzi Hayase1、Qing Shen1 (1.Univ. of Electro-Communications)

キーワード:Perovskite quantum dots, A-site cations cross-exchange, Hot carrier

Halide perovskite quantum dots (PQDs) with the general formula APbX3 (X = Cl-, Br-, and I-), where A is a cation such as cesium (Cs+), methylammonium (MA+, CH3NH3+), or formamidinium (FA+, CH(NH2)2+), have recently emerged as a promising material for many applications, such as solar cells and light-emitting diodes. A deeply understanding of how the A-site cations cross-exchange affects the hot carrier relaxation dynamics in PQDs has a profound implication for further developing the disruptive hot carrier solar cells (HCSCs). However, it has yet to be experimentally studied so far. Here, we investigate the hot carrier cooling kinetics in pure FAPbI3, CsPbI3 and the alloyed FA0.5Cs0.5PbI3 QDs by using ultrafast transient absorption (TA) spectroscopy in combination with temperature-dependent PL and the first principles calculations method. It is demonstrated that the lifetime of initial fast cooling stage (<1 ps) for all organic cation-containing PQDs are shorter than inorganic CsPbI3 QDs, which is ascribed to the strong coupling of electron-phonon due to the motion of organic cation, this is verified by the strength of electron-phonon extracted from temperature-dependent PL. Surprisingly, we find that the slow stage cooling lifetime in alloyed PQDs is significantly extended under higher excitation intensity attributed to the interplay of hot-phonon bottle effect and efficient acoustic phonon up-conversion that can be supported by the first principles calculations.