Low amplified spontaneous emission threshold from 2-thiophenemethylammonium quasi-2D perovskites via phase engineering
Chaochao Qin, Shichen Zhang, Zhongpo Zhou, Tao Han, Jian Song, Shuhong Ma, Guangrui Jia, Zhaoyong Jiao, Zunlue Zhu, Xumin Chen, Yuhai Jiang
Abstract
Quasi-2D Ruddlesden-Popper perovskites attract great attention as an optical gain media in lasing applications due to their excellent optoelectronic properties. Herein, a novel quasi-2D Ruddlesden-Popper perovskite based on 2-thiophenemethylammonium (ThMA) is synthesized by a facile solution-processed method. In addition, an anti-solvent treatment method is proposed to tune the phase distribution, and preferential orientation of quasi-2D (ThMA) 2 Cs n -1 Pb n Br 3 n +1 thin films. The large- n -dominated narrow domain distribution improves the energy transfer efficiency from small- n to large- n phases. Also, the highly oriented nanocrystals facilitate the efficient Förster energy transfer, beneficial for the carrier population transfer. Furthermore, a green amplified spontaneous emission with a low threshold of 13.92 µJ/cm 2 is obtained and a single-mode vertical-cavity laser with an 0.4 nm linewidth emission is fabricated. These findings provide insights into the design of the domain distribution to realize low-threshold multicolor continuous-wave or electrically driven quasi-2D perovskites laser.