An Organic Host-Guest System Producing Room-Temperature Phosphorescence at the Parts-Per-Billion Level

Overview

Journal Angew Chem Int Ed Engl

Specialty Chemistry

Date 2021 Jun 3

PMID 34080278

Citations 19

Authors

Biao Chen

Wenhuan Huang

Xiancheng Nie

Fan Liao

Hui Miao

Xuepeng Zhang

GuoQing Zhang

Affiliations

Soon will be listed here.

Abstract

Manipulation of long-lived triplet excitons in organic molecules is key to applications including next-generation optoelectronics, background-free bioimaging, information encryption, and photodynamic therapy. However, for organic room-temperature phosphorescence (RTP), which stems from triplet excitons, it is still difficult to simultaneously achieve efficiency and lifetime enhancement on account of weak spin-orbit coupling and rapid nonradiative transitions, especially in the red and near-infrared region. Herein, we report that a series of fluorescent naphthalimides-which did not originally show observable phosphorescence in solution, as aggregates, in polymer films, or in any other tested host material, including heavy-atom matrices at cryogenic temperatures-can now efficiently produce ultralong RTP (ϕ=0.17, τ=243 ms) in phthalimide hosts. Notably, red RTP (λ =628 nm) is realized at a molar ratio of less than 10 parts per billion, demonstrating an unprecedentedly low guest-to-host ratio where efficient RTP can take place in molecular solids.

Citing Articles

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Yang G, Hao S, Deng X, Song X, Sun B, Hyun W Nat Commun. 2024; 15(1):4674.

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