Ln-MOF异质结构中各向异性激发调制的多色三光子激发发光。

IF 27.4 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Advanced Materials Pub Date : 2025-07-17 DOI:10.1002/adma.202509590

Hongjun Li,Yujie Cai,Lin Zhang,Enlai Hu,Jiaojiao Yang,Hai Guo,Yuanjing Cui,Banglin Chen,Guodong Qian

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引用次数: 0

摘要

多光子激发发光（MPEL）调制在光电子学领域具有重要的应用价值，特别是具有多色发射和光学各向异性特性的MPEL。然而，它在各种MPEL单元的高度集成和定向组装方面仍然存在障碍。本文提出了一种分层组装原位掺杂策略，以建立一种新的镧系渐变金属有机骨架异质结构。选择设计良好的配体和Ln3+离子分别作为MPEL的能量供体和受体单元（MEDU和MEAU）。利用它们之间的有效能量传递，所获得的三块异质结构显示出多维三光子激发发光（3PEL）调制，其中发射带和强度可以通过基于单个泵浦源的激发区和激发偏振来切换。这是由于光子单位的精确积分和取向。结果表明，该异质结构呈现出多色3PEL， mof中MPEL色域最高（>为sRGB面积的30%），线偏振值最高（max≈88.6%）。这种各向异性3PEL调制在非线性光开关、可编程逻辑门和多电平光学条形码中显示出良好的潜力。这些发现为开发具有光子调制功能的上转换发光材料开辟了一条有趣的途径。

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Anisotropic Excitation-Modulated Multi-Color Three-photon Excited Luminescence in Ln-MOF Heterostructure.

Multi-photon excited luminescence (MPEL) modulation is of great application value for optoelectronics, especially MPEL with the characteristics of multi-color emission and optical anisotropy. However, it still suffers from the obstacles in highly-integrating and orientedly-assembly of various MPEL units. Herein, a hierarchical assembly-in situ doping strategy is proposed to establish a novel lanthanide-graded metal-organic framework based heterostructure. Well-designed ligand and Ln3+ ions are respectively selected as the MPEL energy donor and acceptor units (MEDU and MEAU). Through utilizing the effective energy transfer between them, the as-obtained triblock heterostructure displays multi-dimensional three-photon excited luminescence (3PEL) modulation, where the emission band and intensity can be switched by manipulating excited regions and excitation polarization based on a single pump source. This is attributed to the precise integration and orientation of photonic units. As a result, the heterostructure exhibits multi-color 3PEL with a record-high MPEL color gamut (>30% of sRGB area) in MOFs and high degree of linear polarization values (max ≈88.6%). Such anisotropic 3PEL modulation shows promising potential in nonlinear optical switches, programmable logic gates, and multi-level optical barcodes. These findings open up an intriguing way to develop up-conversion luminescent materials with functions on demand toward photonic modulation.

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来源期刊

Advanced Materials 工程技术-材料科学：综合

CiteScore

43.00

自引率

4.10%

发文量

2182

审稿时长

2 months

期刊介绍： Advanced Materials, one of the world's most prestigious journals and the foundation of the Advanced portfolio, is the home of choice for best-in-class materials science for more than 30 years. Following this fast-growing and interdisciplinary field, we are considering and publishing the most important discoveries on any and all materials from materials scientists, chemists, physicists, engineers as well as health and life scientists and bringing you the latest results and trends in modern materials-related research every week.