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Highly efficient and stable red perovskite quantum dots through encapsulation and sensitization of porous CaF 2 :Ce,Tb nanoarchitectures.

Kunlun LiuJun ZhaoGencai PanYaxian ZhuWenwu YouHuafang ZhangHuiping GaoYanLi Mao
Published in: Nanoscale (2022)
Lead halide perovskite quantum dots (PQDs) are extremely unstable when exposed to oxygen, water and heat, especially red CsPbBr x I 3- x ( x = 0, 0.5, 1.2) PQDs. This seriously hinders their practical application. Here, red CsPbBr x I 3- x ( x = 0, 0.5, 1.2) PQDs have been successfully encapsulated in porous CaF 2 :Ce,Tb hierarchical nanospheres (HNSs), which not only greatly improved the stability of PQDs, benefitting from the protection of the CaF 2 shell, but also maintained the high photoluminescence quantum yield (PLQY) of PQDs, benefitting from the sensitization of Tb 3+ ions. More importantly, porous CaF 2 :Ce,Tb nanoarchitectures can prevent aggregation quenching and anion exchange of PQDs. Therefore, the CaF 2 :Ce,Tb&CsPbBr x I 3- x ( x = 0, 0.5, 1.2) composite powder can have high PLQY comparable to that of the PQD powder. In view of this, CaF 2 :Ce,Tb&CsPbBr 1.2 I 1.8 composite based red light-emitting diodes (LEDs) are prepared, and they are very suitable as a supplementary light source for plant lighting. Furthermore, white LEDs are also prepared by coating the CaF 2 :Ce,Tb&CsPbBr 3 and CaF 2 :Ce,Tb&CsPbBr 1.2 I 1.8 composite on a 450 nm chip. The optimum luminous efficiency is 61.2 lm W -1 , and the color rendering index is 91, which are comparable to the current highest values. This shows that the composite composed of PQDs has great potential in LED lighting.
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