Perovskite-on-polymer microspheres for optimized solid state lighting

Ziqian He, Caicai Zhang, Yajie Dong, Shin‐Tson Wu
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Abstract

Remote downconverters such as phosphors or quantum dots that are physically separated from the blue light-emitting diode (LED) chips can strongly enhance the luminescence efficiency of solid-state lighting (SSL) and liquid-crystal displays (LCDs) because of their reduced light reabsorption. However, the high cost of traditional remote downconverters has limited their wide adoptions in these applications. Herein, we report a one-step, general synthesis method that can convert commercial light-diffusing polymer microspheres into highly luminescent perovskite-based downconverters at an extremely low cost. Involving a quick antisolvent-induced heterogeneous nucleation, our method creates well-dispersed perovskite nanoparticles anchored onto polymer microspheres and the whole process takes only several seconds at room temperature without any complex experimental setups. Significantly, the as-synthesized perovskite-on-polymer microspheres offer widely tunable, highly saturated colors with light-diffusing capability. The pure green-emitting CsPbBr3 manifests a high PL quantum yield of 70.6% and superior stability in water is also demonstrated. With these very saturated colors, we propose two configurations of integrating these microspheres into SSL systems. Further optimizations demonstrate that highly efficient, excellent color-rendering, and circadian lighting can be achieved. Thus, these luminescent microspheres hold great promise to be adopted as a low-cost, high-quality replacement for the traditional, expensive remote downconverters in SSL, LCDs and beyond.
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用于优化固态照明的钙钛矿聚合物微球
远程下变频器,如荧光粉或量子点,与蓝色发光二极管(LED)芯片物理分离,可以大大提高固态照明(SSL)和液晶显示器(lcd)的发光效率,因为它们减少了光的再吸收。然而,传统的远程下变频器的高成本限制了它们在这些应用中的广泛采用。在此,我们报告了一种一步合成方法,可以将商业光扩散聚合物微球以极低的成本转化为高发光的钙钛矿基下变频器。通过快速抗溶剂诱导的非均相成核,我们的方法将分散良好的钙钛矿纳米颗粒固定在聚合物微球上,整个过程在室温下仅需几秒钟,无需任何复杂的实验设置。值得注意的是,合成的钙钛矿聚合物微球具有广泛可调的、高度饱和的颜色和光扩散能力。纯绿色发光CsPbBr3的PL量子产率高达70.6%,并且在水中表现出优异的稳定性。有了这些非常饱和的颜色,我们提出了两种将这些微球集成到SSL系统中的配置。进一步的优化表明,可以实现高效,出色的显色性和昼夜节律照明。因此,这些发光微球有望成为SSL、lcd等领域中传统、昂贵的远程下变频器的低成本、高质量替代品。
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