NIR-Emitting Benzene-Fused Oligo-BODIPYs for Bioimaging

01 October 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Near-infrared (NIR) fluorophores are emerging tools for biophotonics because of their reduced scattering, increased tissue penetration and low phototoxicity. However, the library of NIR fluorophores is still limited. Here, we report the NIR fluorescence of two benzene-fused oligo-BODIPYs in their hexameric (H) and octameric (O) forms. These dyes emit bright NIR fluorescence (H: maxima 943/1075 nm, O: maxima 976/1115 nm) that can be excited in the NIR (H = 921 nm, O = 956 nm) or non-resonantly over a broad range in the visible region. The emission bands of H show a bathochromic shift and peak sharpening with increasing dye concentration suggesting the presence of J-aggregates. Furthermore, the emission maxima of both H and O shift up to 20 nm in solvents of different polarity. These dyes can be used as NIR ink and imaged remotely on the macroscopic level with a stand-off distance of 20 cm. We furthermore demonstrate their versatility for biophotonics by coating microscale beads and performing microrheology via NIR video particle tracking (NIR-VPT) in biopolymer (F-actin) networks. No photodamaging of the actin filaments takes place, which is typically observed for visible fluorophores and highlights the advantages of these NIR dyes.

Keywords

organic dyes
microscopy
bioimaging
spectroscopy
microrheology
(bio)photonics
near-infrared fluorescence

Supplementary materials

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Title
NIR-Emitting Benzene-Fused Oligo-BODIPYs for Bioimaging
Description
Supplementary Information file including additional 1D and 2D spectroscopy datasets, (NIR) fluorescence stand-off and microscopy images, and tables with quantitative information about the acquired spectra.
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