无定形共聚物的圆偏振有机室温磷光

Circularly Polarized Organic Room Temperature Phosphorescence from Amorphous Copolymers.

机构信息

Frontiers Science Center for Flexible Electronics (FSCFE), MIIT Key Laboratory of Flexible Electronics (KLoFE), Northwestern Polytechnical University (NPU), Xi'an 710072, People's Republic of China.

Division of Chemistry and Biological Chemistry, School of Physical and Mathematical Sciences, Nanyang Technological University, 21 Nanyang Link, Singapore 637371, Singapore.

出版信息

J Am Chem Soc. 2021 Nov 10;143(44):18527-18535. doi: 10.1021/jacs.1c08118. Epub 2021 Oct 27.

DOI:10.1021/jacs.1c08118

PMID:34704444

Abstract

Organic optoelectronic functional materials featuring circularly polarized emission and persistent luminescence represent a novel research frontier and show promising applications in data encryption, displays, biological imaging, and so on. Herein, we present a simple and universal approach to achieve circularly polarized organic phosphorescence (CPP) from amorphous copolymers by the incorporation of axial chiral chromophores into polymer chains via radical cross-linked polymerization. Our experimental data reveal that copolymers (/)-PBNA exhibit a maximum CPP efficiency of 30.6% and the largest dissymmetric factor of 9.4 × 10 and copolymers (/)-PNA show the longest lifetime of 0.68 s under ambient conditions. Given the CPP property of these copolymers, their potential applications in multiple information encryption and displays are demonstrated, respectively. These findings not only lay the foundation for the development of amorphous polymers with superior CPP but also expand the outlook of room-temperature phosphorescent materials.

摘要

具有圆偏振发光和持久发光特性的有机光电功能材料代表了一个新的研究前沿，在数据加密、显示、生物成像等方面具有广阔的应用前景。在此，我们提出了一种简单而通用的方法，通过自由基交联聚合将轴向手性发色团引入聚合物链中，从而实现非晶共聚物的圆偏振有机磷光（CPP）。我们的实验数据表明，共聚物（/）-PBNA 表现出最大的 CPP 效率为 30.6%，最大不对称因子为 9.4×10，在环境条件下共聚物（/）-PNA 表现出最长的寿命为 0.68s。鉴于这些共聚物的 CPP 性质，分别展示了它们在多种信息加密和显示方面的潜在应用。这些发现不仅为开发具有优异 CPP 的非晶聚合物奠定了基础，也扩展了室温磷光材料的前景。

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无定形共聚物的圆偏振有机室温磷光

Circularly Polarized Organic Room Temperature Phosphorescence from Amorphous Copolymers.

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