基于单一组分体系的可逆多级刺激响应性和多色室温磷光发射

Reversible Multilevel Stimuli-Responsiveness and Multicolor Room-Temperature Phosphorescence Emission Based on a Single-Component System.

作者信息

Song Jinming, Ma Liangwei, Sun Siyu, Tian He, Ma Xiang

机构信息

Key Laboratory for Advance Materials and Feringa Noble Prize Scientist Joint Research Centre, Frontiers Science for Materiobiology and Dynamic Chemistry, School of Chemistry and Molecular Engineering, East China University of Science & Technology, Meilong Road 130, Shanghai, 200237, China.

出版信息

Angew Chem Int Ed Engl. 2022 Jul 18;61(29):e202206157. doi: 10.1002/anie.202206157. Epub 2022 May 31.

DOI:10.1002/anie.202206157

PMID:35576103

Abstract

There are limited reports about the transformation of pure organic room-temperature phosphorescence (RTP) materials with multilevel stimuli-responsiveness at different RTP emission wavelengths under external stimuli. It is difficult to ensure efficient intersystem crossing (ISC) in different states of a single-component system. This research reports the conversion of the organic single-component small molecule 1,2-bis(4-alkoxyphenyl)ethane-1,2-dione (N-BOX) with multilevel stimuli-responsiveness between high-efficiency blue and yellow RTP by grinding or thermal annealing N-BOX crystals. The RTP emission of N-BOX in the crystalline state was easy to adjust by external stimuli (grinding or thermal annealing) due to its non-compact packing, which led to a phase transition and generated unique multilevel stimuli-responsiveness. In particular, the RTP quantum yield of 7-BOX with multilevel stimuli-responsiveness reached 68.4 %, which provides an opportunity for regulation of smart optical materials based on pure organic RTP.

摘要

关于纯有机室温磷光（RTP）材料在外部刺激下于不同RTP发射波长处具有多级刺激响应性的转变，相关报道有限。在单一组分体系的不同状态下，难以确保有效的系间窜越（ISC）。本研究报道了通过研磨或热退火N - BOX晶体，使具有多级刺激响应性的有机单一组分小分子1,2 - 双（4 - 烷氧基苯基）乙烷 - 1,2 - 二酮（N - BOX）在高效蓝光和黄光RTP之间进行转换。由于N - BOX晶体堆积不紧密，其晶态下的RTP发射易于通过外部刺激（研磨或热退火）进行调节，这导致了相变并产生了独特的多级刺激响应性。特别地，具有多级刺激响应性的7 - BOX的RTP量子产率达到了68.4%，这为基于纯有机RTP的智能光学材料的调控提供了契机。

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基于单一组分体系的可逆多级刺激响应性和多色室温磷光发射

Reversible Multilevel Stimuli-Responsiveness and Multicolor Room-Temperature Phosphorescence Emission Based on a Single-Component System.

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