Ultrastable and highly efficient CsPbBr3 composites achieved by dual‐matrix encapsulation for display devices

Chao Fan; Haipeng Liu; Jianwu Zhou; Xingliang Dai; Haiping He; Zhizhen Ye

doi:10.1002/inf2.12417

InfoMat (Jul 2023)

Ultrastable and highly efficient CsPbBr3 composites achieved by dual‐matrix encapsulation for display devices

Chao Fan,
Haipeng Liu,
Jianwu Zhou,
Xingliang Dai,
Haiping He,
Zhizhen Ye

Affiliations

Chao Fan: Wenzhou Key Laboratory of Novel Optoelectronic and Nano Materials Institute of Wenzhou, Zhejiang University Wenzhou the People's Republic of China
Haipeng Liu: Wenzhou XINXINTAIJING Tech. Co. Ltd. Wenzhou the People's Republic of China
Jianwu Zhou: Wenzhou XINXINTAIJING Tech. Co. Ltd. Wenzhou the People's Republic of China
Xingliang Dai: Wenzhou Key Laboratory of Novel Optoelectronic and Nano Materials Institute of Wenzhou, Zhejiang University Wenzhou the People's Republic of China
Haiping He: Wenzhou Key Laboratory of Novel Optoelectronic and Nano Materials Institute of Wenzhou, Zhejiang University Wenzhou the People's Republic of China
Zhizhen Ye: Wenzhou Key Laboratory of Novel Optoelectronic and Nano Materials Institute of Wenzhou, Zhejiang University Wenzhou the People's Republic of China

DOI: https://doi.org/10.1002/inf2.12417
Journal volume & issue: Vol. 5, no. 7
pp. n/a – n/a

Abstract

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Abstract Perovskite nanocrystals (NCs) with high stabilities and excellent optical performances are crucial for display applications. However, to date, perovskite emitters with both high photoluminescence (PL) quantum yield (PLQY) and high stabilities under harsh synergistic humidity–heat–light aging conditions have not been reported. The promising high‐temperature solid‐state sintering with single oxide matrices cannot ensure high PLQY and synergistic aging stabilities of perovskites. Herein, both the PLQY and overall (thermal, moisture, and photo) stabilities of all‐inorganic perovskite (CsPbBr3) NCs are improved by dual‐matrix encapsulation, which is accomplished by in situ crystallization of CsPbBr3@Cs4PbBr6 nanocomposites in silica molecular sieve (MS) templates via advanced solid‐state synthesis a using precisely controlled molar ratio of precursor components and cooling rates. The Cs4PbBr6 matrix effectively passivates the surfaces of CsPbBr3 NCs, and the MS matrix insulates CsPbBr3@Cs4PbBr6 from the external environment. The resulting CsPbBr3@Cs4PbBr6/MS composites exhibit the highest PLQY (>90%) among those of the solid‐state perovskite NCs and significant stabilities against water, heat, and blue light irradiation, maintaining more than 80% of their initial PL intensities after being aged for 1000 h under synergistic high‐humidity (85%), high‐temperature (85°C), and strong blue light irradiation (350 mW cm−2) conditions. To the best of our knowledge, these CsPbBr3@Cs4PbBr6/MS composites represent the most stable perovskite emitters under synergistic humidity–heat–light aging conditions. The liquid crystal display backlight module fabricated using these stable composites demonstrates a wide color gamut of 131% of the National Television Standards Committee standard. We speculate that this dual‐matrix encapsulation can be used for industrial mass production.

Published in InfoMat

ISSN: 2567-3165 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Technology (General): Industrial engineering. Management engineering: Information technology
Website: https://onlinelibrary.wiley.com/journal/25673165

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