2021年第68回応用物理学会春季学術講演会

講演情報

一般セッション(口頭講演)

3 光・フォトニクス » 3.16 Optics and Photonics English Session

[18a-Z18-1~11] 3.16 Optics and Photonics English Session

2021年3月18日(木) 09:00 〜 12:00 Z18 (Z18)

竹中 充(東大)、西山 伸彦(東工大)

09:45 〜 10:00

[18a-Z18-4] Ligand Engineering and Self-Assemble Recrystallization of Perovskite Nanocrystals for High-Quality Patterning and Single-Mode Lasing

〇(D)Xing Di1、Cheng-Chieh Lin2、Ya-Lun Ho1、A. Syazwan A. Kamal1、I-Ta Wang2、Chia-Chun Chen2、Cheng-Yen Wen2、Chun-Wei Chen2、Jean-Jacques Delaunay1 (1.The Univ. of Tokyo、2.National Taiwan Univ.)

キーワード:Perovskite, Lithography, Single-mode laser array

Lead halide perovskites exhibiting extraordinary performances in optoelectronics are promising media for the next-generation photonic devices. The practical application of photonic devices requires that they can be integrated on chip in arbitrary shape and position. However, a significant bottleneck in perovskite lasers is their chemical reactivity, which leads to instability issues and currently prevents manufacturing by well-established semiconductor top-down lithography process resulting in high-roughness, low-defect, and high-quality perovskite devices. Here, a top-down and etching-free fabrication technique assisted by ligand engineering and self-assemble recrystallization of CsPbBr3 nanocrystals is demonstrated for large-area patterning and single-mode laser arrays. The ligand engineering and self-assemble recrystallization process greatly improve the lasing property (single mode lasing with a high quality-factor ~ 1700 and a low threshold ~ 3.8 μJ/cm2) of the laser arrays. With the precise control of the high-quality laser cavity scale, a modulation of wavelengths is realized up to ≈ 8 nm. These results report a strategy for top-down fabricated high-quality perovskite devices on-chip and enable research on the development of large-area and low scattering loss perovskite integrated optical circuits.