Journal
JOURNAL OF PHYSICAL CHEMISTRY LETTERS
Volume 12, Issue 10, Pages 2593-2606Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpclett.1c00072
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Funding
- National Natural Science Foundation of China [21771114, 91956130]
- Natural Science Foundation of Tianjin [18YFZCGX00580]
- Distinguished Young Scholars of Tianjin [19JCJQJC62000]
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Quasi-2D perovskites are seen as next-generation materials for light-emitting applications due to their excellent radiative efficiency and processability. They possess an energy-funneling process and can meet the requirements of stable emission and display technologies through various engineering strategies, providing promising directions for future advancements.
Quasi-two-dimensional (quasi-2D) perovskites, demonstrating excellent radiative efficiency and facile processability, have been considered as next-generation materials for light-emitting applications. Quasi-2D perovskites with a unique energy-funneling process offer an approach to achieve not only high photoluminescence quantum yields at low excitation but also tunable emission induced by dielectric and quantum confinement. In this Perspective, we highlight the mechanism of the energy-funneling process and discuss the salient position of it in quasi-2D perovskite materials for light-emitting applications; we then present the significance of component and molecular engineering strategies for the energy-funneling process to meet the requirements of stable emission and display technologies. Considering present achievements, we also provide promising directions for future advancements of quasi-2D perovskite materials. We hope this Perspective can provide a new viewpoint for researchers to encourage the commercial progress of quasi-2D perovskites for light-emitting applications.
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