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Coherent Random Lasing in Colloidal Quantum Dot-Doped Polymer-Dispersed Liquid Crystal with Low Threshold and High Stability

Zhiwen Wang, Mingxuan Cao, Genrong Shao, Zhikun Zhang, Huiwen Yu, Yeqing Chen, Yating Zhang, Yang Li, Baiping Xu, Ying Wang, Jianquan Yao

2020The Journal of Physical Chemistry Letters55 citationsDOI

Abstract

High-concentration (2–10 wt %) ZnCdSeS/ZnS alloyed quantum dot-doped polymer-dispersed liquid crystals (QD-PDLCs) were prepared via ultraviolet (UV) curing. The QD-PDLC morphology and resonance characteristics of a coherent random laser were investigated. The doping concentration of the liquid crystal and quantum dots was varied to investigate its effect on the lasing threshold, line width, and stability with respect to the density and grain size of the liquid crystal droplets inside the PDLC structure. Furthermore, the QD-PDLC laser performance was influenced by the pump position and area because of spatial localization of the random resonators. Moreover, the QD-PDLC showed good long-term stability; after 15 days of laser excitation (3 h/day), the laser output was maintained at 92% of the original emission intensity. The random laser threshold was as low as 50 μJ/cm2 with the optimized preparation process, which suggested strong potential for applications in polymer random fiber lasers, sensors, and displays.

Topics & Concepts

Lasing thresholdRandom laserMaterials scienceQuantum dotLaserLiquid crystalDopingOptoelectronicsUltravioletPolymerQuantum dot laserOpticsSemiconductor laser theoryComposite materialSemiconductorPhysicsWavelengthRandom lasers and scattering mediaLiquid Crystal Research AdvancementsOrbital Angular Momentum in Optics