Litcius/Paper detail

Boric Acid Matrix‐Activated <i>nπ</i>* Transition of Guest Chromophores: from Pure Fluorescence to Efficient Afterglow

Peisheng Cao, Qian Chen, Peng Wu

2024Advanced Optical Materials11 citationsDOIOpen Access PDF

Abstract

Abstract El‐Sayed rule highlights the important role of heteroatoms (e.g., N, O, and S) and the corresponding nπ* transition in designing efficient organic phosphors. Nevertheless, for some heteroatom‐rich fluorophores, their phosphorescence is quite weak (e.g., fluorescein), since the nπ* components are absent in the whole transitions. Here, these chromophores (mainly with n electron‐containing twisted structure) are found doping into the boric acid (BA) matrix can activate the nπ* transition for efficient afterglow luminescence. For example, doping purely green‐emitting fluorescein into BA yielded a high afterglow quantum yield (≈24%) and a long‐lasting, blue‐shifted cyan afterglow (&gt;10 s). The covalent/non‐covalent interactions between the BA matrix and the guests resulted in twisting the n electron‐containing structure to promote the spin‐orbit coupling process, leading to the generation of new excited state triplet transition pathways. Since the guest chromophores feature visible light absorption, a series of multi‐color afterglow phosphors with visible or white light excitation are successfully constructed.

Topics & Concepts

ChromophoreAfterglowMaterials scienceFluorescenceBoric acidPhotochemistryMatrix (chemical analysis)OpticsOrganic chemistryChemistryPhysicsComposite materialQuantum mechanicsGamma-ray burstLuminescence and Fluorescent MaterialsMolecular Sensors and Ion DetectionNanoplatforms for cancer theranostics