CsPbX3 Quantum Dots for Lighting and Displays: Room‐Temperature Synthesis, Photoluminescence Superiorities, Underlying Origins and White Light‐Emitting Diodes

材料科学 光致发光 光电子学 发光二极管 量子点 电致发光 二极管 色域 激子 钝化 激光阈值 荧光粉 色温 纳米技术 光学 凝聚态物理 物理 图层(电子) 波长
作者
Xiaoming Li,Ye Wu,Shengli Zhang,Bo Cai,Yu Gu,Jizhong Song,Haibo Zeng
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:26 (15): 2435-2445 被引量:2498
标识
DOI:10.1002/adfm.201600109
摘要

Recently, Kovalenko and co‐workers and Li and co‐workers developed CsPbX 3 (X = Cl, Br, I) inorganic perovskite quantum dots (IPQDs), which exhibited ultrahigh photoluminescence (PL) quantum yields (QYs), low‐threshold lasing, and multicolor electroluminescence. However, the usual synthesis needs high temperature, inert gas protection, and localized injection operation, which are severely against applications. Moreover, the so unexpectedly high QYs are very confusing. Here, for the first time, the IPQDs' room‐temperature (RT) synthesis, superior PL, underlying origins and potentials in lighting and displays are reported. The synthesis is designed according to supersaturated recrystallization (SR), which is operated at RT, within few seconds, free from inert gas and injection operation. Although formed at RT, IPQDs' PLs have QYs of 80%, 95%, 70%, and FWHMs of 35, 20, and 18 nm for red, green, and blue emissions. As to the origins, the observed 40 meV exciton binding energy, halogen self‐passivation effect, and CsPbX 3 @X quantum‐well band alignment are proposed to guarantee the excitons generation and high‐rate radiative recombination at RT. Moreover, such superior optical merits endow them with promising potentials in lighting and displays, which are primarily demonstrated by the white light‐emitting diodes with tunable color temperature and wide color gamut.
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