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Alkyl‐Doping Enables Significant Suppression of Conformational Relaxation and Intermolecular Nonradiative Decay for Improved Near‐Infrared Fluorescence Imaging

Yuying Liang, Yonghui Pan, Lu Chen, Ping Li, Man Xu, Hui Zhou, Xiaomei Lü, Wenbo Hu, Wenbo Hu, Chao Yin, Quli Fan, Quli Fan

2024Angewandte Chemie International Edition20 citationsDOI

Abstract

Despite various efforts to optimize the near-infrared (NIR) performance of perylene diimide (PDI) derivatives for bio-imaging, convenient and efficient strategies to amplify the fluorescence of PDI derivatives in biological environment and the intrinsic mechanism studies are still lacking. Herein, we propose an alkyl-doping strategy to amplify the fluorescence of PDI derivative-based nanoparticles for improved NIR fluorescence imaging. The developed PDI derivative, OPE-PDI, shows much brighter in n-Hexane (HE) compared with that in other organic media, and the excited state dynamics investigation experimentally elucidates the solvent effect-induced suppression of intermolecular energy transfer and intramolecular nonradiative decay as the underlying mechanism for the fluorescence improvement. Theoretical calculations reveal the lowest reorganization energies of OPE-PDI in HE among various solvents, indicating the effectively suppressed conformational relaxation to support the strongest radiative decay. Inspired by this, an alkyl atmosphere mimicking HE is constructed by incorporating the octadecane into OPE-PDI-based nanoparticles, permitting up to 3-fold fluorescence improvement compared with the counterpart nanoparticles. Owing to the merits of high brightness, anti-photobleaching, and low biotoxicity for the optimal nanoparticles, they have been employed for probing and long-term monitoring of tumor. This work highlights a facile strategy for the fluorescence enhancement of PDI derivative-based nanoparticles.

Topics & Concepts

Intermolecular forceFluorescenceDopingInfraredMaterials scienceRelaxation (psychology)Fluorescence-lifetime imaging microscopyPhotochemistryChemical physicsNuclear magnetic resonanceOptoelectronicsChemistryOpticsMoleculePhysicsOrganic chemistryMedicineInternal medicineNanoplatforms for cancer theranosticsLuminescence and Fluorescent MaterialsAdvanced Nanomaterials in Catalysis
Alkyl‐Doping Enables Significant Suppression of Conformational Relaxation and Intermolecular Nonradiative Decay for Improved Near‐Infrared Fluorescence Imaging | Litcius