Visible Room-temperature Phosphorescence of Pure Organic Crystals Via a Radical-ion-pair Mechanism
Overview
Chemistry
Affiliations
The afterglow of phosphorescent compounds can be distinguished from background fluorescence and scattered light by a time-resolved observation, which is a beneficial property for bioimaging. Phosphorescence emission accompanies spin-forbidden transitions from an excited singlet state through an excited triplet state to a ground singlet state. Since these intersystem crossings are facilitated usually by the heavy-atom effect, metal-free organic solids are seldom phosphorescent, although these solids have recently been refurbished as low-cost, eco-friendly phosphorescent materials. Here, we show that crystalline isophthalic acid exhibits room-temperature phosphorescence with an afterglow that lasts several seconds through a nuclear spin magnetism-assisted spin exchange of a radical ion pair. The obvious afterglow that facilitates a time-resolved detection and the unusual phosphorescence mechanism that enables emission intensification by nuclear spin managements are promising for exploiting the phosphorescence materials in novel applications such as bioimaging.
Dibenzyl isophthalates as versatile hosts in room temperature phosphorescence host-guest systems.
Molkenthin M, Hupf E, Nachtsheim B Chem Sci. 2025; 16(6):2819-2829.
PMID: 39811010 PMC: 11726582. DOI: 10.1039/d4sc07768g.
Sharma T, Arora G, Ng C, Jun H Heliyon. 2024; 10(22):e40341.
PMID: 39624276 PMC: 11609443. DOI: 10.1016/j.heliyon.2024.e40341.
Cho Y, Kim S, Won T, Cho S, Ahn D Mater Today Bio. 2024; 28:101238.
PMID: 39318377 PMC: 11421373. DOI: 10.1016/j.mtbio.2024.101238.
Yang Q, Yang X, Wang Y, Fei Y, Li F, Zheng H Nat Commun. 2024; 15(1):7778.
PMID: 39237586 PMC: 11377787. DOI: 10.1038/s41467-024-52196-7.
Xiao G, Ma Y, Qi Z, Fang X, Chen T, Yan D Chem Sci. 2024; 15(10):3625-3632.
PMID: 38455006 PMC: 10915845. DOI: 10.1039/d3sc06845e.