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. 2021 Dec 20;60(52):27171-27177.
doi: 10.1002/anie.202113577. Epub 2021 Nov 18.

Ultrahigh Supramolecular Cascaded Room-Temperature Phosphorescence Capturing System

Man Huo  1 Xian-Yin Dai  1 Yu Liu  1
Affiliations

Ultrahigh Supramolecular Cascaded Room-Temperature Phosphorescence Capturing System

Man Huo et al. Angew Chem Int Ed Engl. .

Abstract

An ultrahigh supramolecular cascaded phosphorescence-capturing aggregate was constructed by multivalent co-assembly of cucurbit[7]uril (CB[7]) and amphipathic sulfonatocalix[4]arene (SC4AD). The initial dibromophthalimide derivative (G) generated a weak phosphorescent emission at 505 nm by host-guest interaction with CB[7], which further assembled with SC4AD to form homogeneously spherical nanoparticles with a dramatic enhancement of both phosphorescence lifetime to 1.13 ms and emission intensity by 40-fold. Notably, this G⊂CB[7]@SC4AD aggregate exhibited efficient phosphorescence energy transfer to Rhodamine B (RhB) and benzothiadiazole (DBT) with high efficiency (ϕET ) of 84.4 % and 76.3 % and an antenna effect (AE) of 289.4 and 119.5, respectively, and then each of these can function as a bridge to further transfer their energy to second near-IR acceptors Cy5 or Nile blue (NiB) to achieve cascaded phosphorescence energy transfer. The final aggregate with long-range effect from 425 nm to 800 nm and long-lived photoluminescence was further employed as an imaging agent for multicolour cell labeling.

Keywords: NIR delayed emission; cell labeling; phosphorescence; phosphorescence energy transfer; supramolecular aggregates.

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