Perovskite nanocrystals-in-glass hierarchical structures enable stable continuous-wave random lasers
Xinkuo Li, Chenduan Chen, Ke Sun, Linhan Li, Zhu Xiao, Zhou Li, Yuanzheng Yue, Jianrong Qiu, Dezhi Tan

TL;DR
Researchers developed a method to create stable, continuous-wave random lasers using perovskite nanocrystals embedded in glass, enabling new applications in imaging and displays.
Contribution
A novel low-temperature method to create tunable perovskite nanocrystals in glass for stable continuous-wave random lasing.
Findings
PNCs-in-glass structures were created at temperatures below the glass transition temperature with short processing times.
Stable continuous-wave single-mode random lasing was achieved with an ultralow threshold of 52.6 mW/cm².
Flexible random lasers were integrated into polydimethylsiloxane films for speckle-free imaging and dynamic holographic displays.
Abstract
Encapsulating perovskite nanocrystals (PNCs) in glass enables enhanced stability of PNCs and numerous applications such as random lasers. However, preparing PNCs and tuning their properties in glass is energy consuming because of high processing temperature and long processing time, and continuous-wave (CW) random lasers have not been achieved. Here, we report modulation of the structure, photoluminescence, and lasing properties of PNCs in glass at temperatures well below the glass transition temperature with a short processing period. We generate tunable PNCs in glass via nanophase separation and ion exchange in the perovskite domains. PNCs-in-glass hierarchical structures are created by controlling nanophase separation and crystallization of PNCs. Substantially increased scattering in the hierarchical structures enables stable CW single-mode random lasing with an ultralow threshold of…
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Taxonomy
TopicsRandom lasers and scattering media · Perovskite Materials and Applications · Nonlinear Photonic Systems
