Issue 6, 2023

The fluorescence quenching mechanism of tetrazine-functionalized fluorogenic labels with integrated π-conjugations: internal conversion to a dark state

Abstract

Tetrazine-based fluorogenic labels have been extensively applied to the studies of living systems due to their excellent selectivity, rapid reaction kinetics, and unique fluorogenicity. However, the fluorescence quenching mechanism in many precursor dyes remains controversial, impeding rational molecular engineering to optimize their fluorescence enhancement ratios. Herein, employing quantum chemical calculations, we established a quenching mechanism – internal conversion to a dark state (ICDS), to rationalize the fluorogenicity in tetrazine-functionalized labels with integrated π-conjugations. We show that the ICDS efficiency is negatively correlated with the energy gap between these labels’ first excited state (the dark state) and the second excited state (the bright state). Based on this correlation, we further proposed molecular design strategies for developing biocompatible long-wavelength fluorophores with improved fluorogenicity.

Graphical abstract: The fluorescence quenching mechanism of tetrazine-functionalized fluorogenic labels with integrated π-conjugations: internal conversion to a dark state

Supplementary files

Article information

Article type
Research Article
Submitted
06 des. 2022
Accepted
18 jan. 2023
First published
19 jan. 2023

Mater. Chem. Front., 2023,7, 1082-1092

The fluorescence quenching mechanism of tetrazine-functionalized fluorogenic labels with integrated π-conjugations: internal conversion to a dark state

T. Shen, W. Zhang, P. Yadav, X. W. Sun and X. Liu, Mater. Chem. Front., 2023, 7, 1082 DOI: 10.1039/D2QM01264B

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