手性萘二酰亚胺具有高效率的固态荧光和圆偏振发光，可应用于有机光电。

Chiral Naphthalenediimides with High-Efficiency Fluorescence and Circularly Polarized Luminescence in the Solid State for the Application in Organic Optoelectronics.

机构信息

Laboratory of Polymer Composite and Engineering, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, 5625 Renmin Street, Changchun, 130022, P. R. China.

University of Science and Technology of China, Hefei, 230026, P. R. China.

出版信息

Chemistry. 2023 Jan 2;29(1):e202202476. doi: 10.1002/chem.202202476. Epub 2022 Nov 16.

DOI:10.1002/chem.202202476

PMID:36214724

Abstract

Naphthalenediimides (NDIs) have been extensively studied due to their tunable luminescent properties. However, generally, the monomers or aggregates of non-core substituted NDIs exhibit low fluorescence quantum yields (Φ <10 %) in the solid state, which limit their applications as light-emitting materials and render their chiral species unsuitable for circularly polarized luminescence (CPL). Herein, a series of non-core substituted chiral NDIs that exhibit high luminous efficiencies (Φ up to 56.8 % for racemate and 36.5 % for enantiomer) and a strong CPL behavior in the solid state is reported. These significant improvements are attributed to the unique molecular conformation of the chiral NDIs and the formation of distinctive discrete dimers. The structures of the NDIs were significantly simpler and more accessible than those of other NDIs. The findings evidence that non-core substituted NDIs can exhibit strong fluorescence in the solid state and provide a new pathway to improve photophysical properties of NDIs.

摘要

萘二酰亚胺（NDIs）因其可调谐的发光性能而受到广泛研究。然而，通常情况下，非核心取代的 NDIs 的单体或聚集物在固态下表现出低荧光量子产率（Φ <10%），这限制了它们作为发光材料的应用，并使它们的手性物种不适合圆偏振发光（CPL）。本文报道了一系列非核心取代的手性 NDIs，它们在固态下表现出高光致发光效率（外消旋体高达 56.8%，对映体高达 36.5%）和强 CPL 行为。这些显著的改进归因于手性 NDIs 的独特分子构象和独特离散二聚体的形成。NDIs 的结构明显比其他 NDIs 更简单、更容易获得。这些发现证明了非核心取代的 NDIs 可以在固态下表现出强荧光，并为改善 NDIs 的光物理性质提供了新途径。

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手性萘二酰亚胺具有高效率的固态荧光和圆偏振发光，可应用于有机光电。

Chiral Naphthalenediimides with High-Efficiency Fluorescence and Circularly Polarized Luminescence in the Solid State for the Application in Organic Optoelectronics.

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