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Amino‐Mediated Anchoring Perovskite Quantum Dots for Stable and Low‐Threshold Random Lasing

Halide perovskite quantum dots (Pe‐QDs) have been considered as outstanding candidates for photodetector, light‐emitting diode, and lasing applications, but these perspectives are being impeded by the severe stability, including both chemical and optical degradations. This study reports on amino‐mediated anchoring Pe‐QDs onto the surfaces of monodisperse silica to effectively depress the optical degradation of their photoluminescence (PL) and random lasing stabilities, hence achieving highly stable and low‐threshold lasing. An amination‐mediated nucleation and growth process is designed for the general and one‐pot synthesis of Pe‐QDs on the surfaces of silica spheres. The facile synthetic process, which can be finished within several minutes, insures scalable production. Surprisingly, almost no PL degradation is observed after 40 d storage under ambient conditions, even 80% PL intensity can be maintained after persistently illuminated by UV lamps for 108 h. Subsequently, extremely stable random lasing is achieved after storage for 2 months or over continuously optical pumping for 8 h. Such high PL and lasing stabilities originate from the isolation effects due to the effective anchoring, which separate the Pe‐QDs from each other and inhibit the photoinduced regrowth and deterioration. This work will also open the window of perovskite‐based multifunctional systems.

Amino‐mediated anchoring perovskite quantum dots (QDs) onto surfaces of monodisperse silica spheres separates the QDs from each other and inhibit the photoinduced regrowth and deterioration effectively, which also contributes to highly stable and low‐threshold random lasing. The general and one‐pot synthetic procedures insure scalable production and open the window of perovskite‐based multifunctional systems.

Authors:   Xiaoming Li, Yue Wang, Handong Sun, Haibo Zeng
Journal:   Advanced Materials
Year:   2017
Pages:   n/a
DOI:   10.1002/adma.201701185
Publication date:   31-Jul-2017
Facts, background information, dossiers
  • stability
  • photoluminescence
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