CaO modulated dual-phase CsPb2Br5/CsPbBr3 perovskite nanocrystal glasses with enhanced stability for backlit display

Abstract

All-inorganic perovskite nanocrystals (PNCs) hold tremendous prospect in optoelectronics, while the instability has always troubled us to the wide application of perovskite materials. Here, the dual-phase CsPb2Br5/CsPbBr3 PNCs were precipitated in the phosphosilicate glass matrix by a melt-quenching method for the first time. Impressively, the introduction of alkaline earth metal oxide CaO was utilized to adjust glass structure, and successfully realizing the conversion between the two phases. To our surprise, the CsPb2Br5/CsPbBr3@glass (PNG) owned the optical characteristics such as narrowband emission, high photoluminescence quantum yield (PLQY ∼ 52%) and tunable PL emission (505–526 nm). In addition, the obtained CsPb2Br5/CsPbBr3@glass exhibited excellent thermal, water and light stabilities. More excitingly, a conceptual experiment was carried out through commercial TFT-LCD devices, and the color gamut of the prepared PNG@PET yellow-emitting composite film covered 130% of National Television System Committee (NTSC) and 97% of Rec.2020, and maintained excellent display performance even after 72 h of continuous operation. This work undoubtedly not only provided a new avenue to control the precipitate composite perovskites in glass, but also demonstrated composite perovskites materials have great potentials for future practical backlit display applications.