全无机 CsCuI 单晶体具有高荧光量子产率（≈15.7%）的本征白光发射，源于强烈局域的 1D 激子复合。

All-Inorganic CsCu I Single Crystal with High-PLQY (≈15.7%) Intrinsic White-Light Emission via Strongly Localized 1D Excitonic Recombination.

机构信息

State Key Laboratory of Optoelectronic Materials and Technologies, School of Materials, Sun Yat-sen University, Guangzhou, 510275, P. R. China.

出版信息

Adv Mater. 2019 Nov;31(46):e1905079. doi: 10.1002/adma.201905079. Epub 2019 Oct 3.

DOI:10.1002/adma.201905079

PMID:31583772

Abstract

Energy-saving white lighting from the efficient intrinsic emission of semiconductors is considered as a next-generation lighting source. Currently, white-light emission can be composited with a blue light-emitting diode and yellow phosphor. However, this solution has an inevitable light loss, which makes the improvement of the energy utilization efficiency more difficult. To deal with this problem, intrinsic white-light emission (IWE) in a single solid material gives a possibility. Here, an all-inorganic lead-free CsCu I perovskite single crystal (SC) with stable and high photoluminescence quantum yield (≈15.7%) IWE through strongly localized 1D exciton recombination is synthesized. In the CsCu I , the Cu-I octahedron, which provides most of electron states, is isolated by Cs atoms in two directions to form a 1D electronic structure, resulting a high radiation recombination rate of excitons. With this electronic structure design, the CsCu I SCs have great potential in energy-saving white lighting.

摘要

节能型白光照明来源于半导体的高效本征发射，被认为是下一代照明光源。目前，白光发射可以通过蓝色发光二极管和黄色荧光粉复合而成。然而，这种解决方案不可避免地存在光损耗，这使得提高能量利用率变得更加困难。为了解决这个问题，单一固态材料中的本征白光发射（IWE）提供了一种可能性。在这里，通过强局域化的 1D 激子复合，合成了一种具有稳定和高光致发光量子产率（≈15.7%）IWE 的全无机无铅 CsCu I 钙钛矿单晶（SC）。在 CsCu I 中，提供大部分电子态的 Cu-I 八面体被 Cs 原子在两个方向上隔离，形成 1D 电子结构，从而导致激子的高辐射复合率。通过这种电子结构设计，CsCu I SC 具有在节能型白光照明中的巨大潜力。

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全无机 CsCuI 单晶体具有高荧光量子产率（≈15.7%）的本征白光发射，源于强烈局域的 1D 激子复合。

All-Inorganic CsCu I Single Crystal with High-PLQY (≈15.7%) Intrinsic White-Light Emission via Strongly Localized 1D Excitonic Recombination.

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