Your search keyword '"Reinholdt, Peter"' showing total 2 results

1. Facile Suzuki Coupling Strategy toward New Nile Red Derivatives with Improved Two‐Photon Brightness.

Author

Mulberg, Mads W., Hornum, Mick, Reinholdt, Peter, Jensen, Brian Bjarke, Szomek, Maria, Brewer, Jonathan R., Wüstner, Daniel, Kongsted, Jacob, and Nielsen, Poul

Subjects

STAINS & staining (Microscopy), SUZUKI reaction, FLUORESCENT dyes, INTRAMOLECULAR proton transfer reactions, STOKES shift, DYE lasers, FLUOROPHORES

Abstract

Chemical fine‐tuning of fluorophores is a pivotal step towards development of next generation fluorescent dyes for microscopy. With the advent of high‐resolution two‐photon excitation fluorescence imaging, there is a growing demand for very sensitive laser dyes that can be efficiently excited using commercial Ti:sapphire laser sources in the first near‐infrared window (NIR‐I, 780–1020 nm). Using the fluorescent dye Nile Red as the lead structure, we report a robust and concise Suzuki coupling approach for the synthesis of 14 new Nile Red analogues that feature extended π ring systems and diverse functionalities. For this set, we gauged their two‐photon excitation efficiency in NIR‐I as well as evaluated their general fluorescent properties (emission wavelength, Stokes shift, quantum yield and solvatochromism). Several of the new fluorophores were found to display very favorable characteristics. In particular, the derivative featuring a 4‐aminophenyl group in the 2‐position of Nile Red exhibited extreme solvent sensitivity, and the thien‐2‐yl substituted Nile Red derivative showed significantly redshifted emission, large Stokes shift and high two‐photon brightness. [ABSTRACT FROM AUTHOR]

Published

2023

2. One- and two-photon solvatochromism of the fluorescent dye Nile Red and its CF3, F and Br-substituted analogues.

Author

Hornum, Mick, Reinholdt, Peter, Zaręba, Jan K., Jensen, Brian B., Wüstner, Daniel, Samoć, Marek, Nielsen, Poul, and Kongsted, Jacob

Subjects

*SOLVATOCHROMISM, *RED, *BROMINE, *ABSORPTION spectra, *TISSUES, *ELECTRONIC structure, *FLUORESCENT dyes

Abstract

The solvatochromic fluorophore Nile Red, 9-diethylamino-5H-benzo[a]phenoxazine-5-one, is one of the most commonly used stains to enhance contrast of lipid-rich areas of microscopic biosamples. Quite surprisingly, relatively little is known about the spectrally-resolved two-photon absorption (2PA) properties of this dye despite its promising features for two-photon microscopy of biological matter. For this reason, the two-photon solvatochromism of Nile Red still remains an uncharted territory as well. Also, no study has yet reported on how electron-withdrawing substituents attached to the Nile Red backbone affect its solvatochromic properties and two-photon brightness. In this paper, we demonstrate how solvent polarity influences the one- and two-photon absorption spectra of Nile Red as well as its fluorescence parameters, and we present new analogues that contain –CF3, –F and –Br substituents on its eastern side. Two-photon excited fluorescence experiments in a broad spectral range (780–1240 nm) and electronic structure calculations show that both the nature and location of the substituent have particular influence on the strength of 2PA, peaking in all cases at approx. 860 and 1050 nm. 2PA cross sections are higher at 1050 nm than at 860 nm, which suggests that Nile Red and its analogues are best suited for two-photon imaging employing excitation in the NIR-II optical transparency window of biological tissues. [ABSTRACT FROM AUTHOR]

Published

2020