通过溴萘基吡啶鎓聚合激活固体超分子产生可调谐超强白光发射

Generation of Tunable Ultrastrong White-Light Emission by Activation of a Solid Supramolecule through Bromonaphthylpyridinium Polymerization.

作者信息

Hu Yu-Yang, Dai Xian-Yin, Dong Xiaoyun, Huo Man, Liu Yu

机构信息

College of Chemistry, State Key Laboratory of Elemento-Organic Chemistry, Nankai University, Tianjin, 300071, P. R. China.

出版信息

Angew Chem Int Ed Engl. 2022 Nov 2;61(44):e202213097. doi: 10.1002/anie.202213097. Epub 2022 Oct 5.

DOI:10.1002/anie.202213097

PMID:36094757

Abstract

Herein, we reported solid supramolecular bromonaphthylpyridinium polymers (P-BrNp), which exhibit tunable phosphorescence emission in the amorphous state enabled by sulfobutylether-β-cyclodextrin (SBE-β-CD) and diarylethene derivatives. The monomer BrNp gave single fluorescence emission at 490 nm, while an apparent room-temperature phosphorescence (RTP) at 550 nm emerged for P-BrNp copolymers with various feed ratios. Through fluorescence-phosphorescence dual emission, P-BrNp-0.1 displayed an ultrahigh white-light emission quantum yield of 83.9 %. Moreover, the subsequent assembly with SBE-β-CD further enhanced the phosphorescent quantum yield of P-BrNp-0.1 from 64.1 % to 71.3 %, accompanied by the conversion of photoluminescence emission from white to yellow. Diarylethene monomers were introduced as photoswitches to realize reversible RTP emission, which can be used in switchable data encryption and multifunctional writing ink.

摘要

在此，我们报道了固态超分子溴萘基吡啶聚合物（P-BrNp），其在无定形状态下表现出可调节的磷光发射，这是由磺丁基醚-β-环糊精（SBE-β-CD）和二芳基乙烯衍生物实现的。单体BrNp在490 nm处发出单一荧光发射，而对于具有不同进料比的P-BrNp共聚物，在550 nm处出现明显的室温磷光（RTP）。通过荧光-磷光双发射，P-BrNp-0.1显示出83.9 %的超高白光发射量子产率。此外，随后与SBE-β-CD组装进一步将P-BrNp-0.1的磷光量子产率从64.1 %提高到71.3 %，同时光致发光发射从白色转变为黄色。引入二芳基乙烯单体作为光开关以实现可逆的RTP发射，其可用于可切换数据加密和多功能书写墨水。

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通过溴萘基吡啶鎓聚合激活固体超分子产生可调谐超强白光发射

Generation of Tunable Ultrastrong White-Light Emission by Activation of a Solid Supramolecule through Bromonaphthylpyridinium Polymerization.

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