Quantum Dot Self-Assembly Enables Low-Threshold Lasing
Date
2021-10
Authors
Zhou, Chun
Pina, Joao M.
Zhu, Tong
Parmar, Darshan H.
Chang, Hao
Yu, Jie
Yuan, Fanglong
Bappi, Golam
Hou, Yi
Zheng, Xiaopeng
Journal Title
Journal ISSN
Volume Title
Publisher
Advanced Science
Abstract
Perovskite quantum dots (QDs) are of interest for solution-processed lasers; however, their short Auger lifetime has limited lasing operation principally to the femtosecond temporal regime the photoexcitation levels to achieve optical gain threshold are up to two orders of magnitude higher in the nanosecond regime than in the femtosecond. Here the authors report QD superlattices in which the gain medium facilitates excitonic delocalization to decrease Auger recombination and in which the macroscopic dimensions of the structures provide the optical feedback required for lasing. The authors develope a self-assembly strategy that relies on sodiumd—an assembly director that passivates the surface of the QDs and induces self-assembly to form ordered three-dimensional cubic structures. A density functional theory model that accounts for the attraction forces between QDs allows to explain self-assembly and superlattice formation. Compared to conventional organic-ligand-passivated QDs, sodium enables higher attractive forces, ultimately leading to the formation of micron-length scale structures and the optical faceting required for feedback. Simultaneously, the decreased inter-dot distance enabled by the new ligand enhances exciton delocalization among QDs, as demonstrated by the dynamically red-shifted photoluminescence. These structures function as the lasing cavity and the gain medium, enabling nanosecond-sustained lasing with a threshold of 25 µJ cm–2.
Description
Keywords
Auger recombination, lasing, perovskites, quantum dots, superlattices
Citation
Zhou, C., Pina, J. M., Zhu, T., Parmar, D. H., Chang, H., Yu, J., Yuan, F., Bappi, G., Hou, Y., Zheng, X., Abed, J., Chen, H., Zhang, J., Gao, Y., Chen, B., Wang, Y.-K., Chen, H., Zhang, T., Hoogland, S., Saidaminov, M. I., Sun, L., Bakr, O. M., Dong, H., Zhang, L., Sargent, E. H. (2021) Quantum Dot Self-Assembly Enables Low-Threshold Lasing. Advanced Science, 8(20). https://doi.org/10.1002/advs.202101125