Recent Progress in Pure Organic Room Temperature Phosphorescence of Small Molecular Host–Guest Systems

Organic room temperature phosphorescence (RTP) materials have been used in high resolution imaging and anticounterfeiting due to their long lifetime of phosphorescence ability to avoid interference from autofluorescence and excitation light. An important factor when considering phosphorescence is th...

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Published inACS materials letters Vol. 3; no. 4; pp. 379 - 397
Main Authors Guo, Shuai, Dai, Wenbo, Chen, Xueqiang, Lei, Yunxiang, Shi, Jianbing, Tong, Bin, Cai, Zhengxu, Dong, Yuping
Format Journal Article
LanguageEnglish
Published American Chemical Society 05.04.2021
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Abstract Organic room temperature phosphorescence (RTP) materials have been used in high resolution imaging and anticounterfeiting due to their long lifetime of phosphorescence ability to avoid interference from autofluorescence and excitation light. An important factor when considering phosphorescence is the high constant of the intersystem crossing (ISC) process. It is of great importance to develop novel pure organic RTP materials via precise manipulation of the ISC process and nonradiative decay rate. Encapsulation of a luminophore in the host matrix can avoid phosphorescence quenching caused by the presence of water and oxygen, while increasing intermolecular interaction to suppress nonradiative decay. Compared with polymeric and supramolecular host matrixes, organic small molecular host matrixes can provide possible molecular orbitals to facilitate the ISC process and enhance RTP emission. Herein, recent progress made in organic RTP materials using small molecular host matrixes and their mechanisms in realizing RTP emission are summarized. The design principles as well as possible applications of pure organic RTP materials based on the host–guest system are also revealed. Finally, future prospects on pure organic RTP materials involving small molecular host–guest systems are proposed.
AbstractList Organic room temperature phosphorescence (RTP) materials have been used in high resolution imaging and anticounterfeiting due to their long lifetime of phosphorescence ability to avoid interference from autofluorescence and excitation light. An important factor when considering phosphorescence is the high constant of the intersystem crossing (ISC) process. It is of great importance to develop novel pure organic RTP materials via precise manipulation of the ISC process and nonradiative decay rate. Encapsulation of a luminophore in the host matrix can avoid phosphorescence quenching caused by the presence of water and oxygen, while increasing intermolecular interaction to suppress nonradiative decay. Compared with polymeric and supramolecular host matrixes, organic small molecular host matrixes can provide possible molecular orbitals to facilitate the ISC process and enhance RTP emission. Herein, recent progress made in organic RTP materials using small molecular host matrixes and their mechanisms in realizing RTP emission are summarized. The design principles as well as possible applications of pure organic RTP materials based on the host–guest system are also revealed. Finally, future prospects on pure organic RTP materials involving small molecular host–guest systems are proposed.
Author Lei, Yunxiang
Guo, Shuai
Dong, Yuping
Cai, Zhengxu
Shi, Jianbing
Tong, Bin
Chen, Xueqiang
Dai, Wenbo
AuthorAffiliation Beijing Key Laboratory of Construction Tailorable Advanced Functional, Materials and Green Applications, School of Materials Science and Engineering
AuthorAffiliation_xml – name: Beijing Key Laboratory of Construction Tailorable Advanced Functional, Materials and Green Applications, School of Materials Science and Engineering
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Snippet Organic room temperature phosphorescence (RTP) materials have been used in high resolution imaging and anticounterfeiting due to their long lifetime of...
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Title Recent Progress in Pure Organic Room Temperature Phosphorescence of Small Molecular Host–Guest Systems
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