2022
DOI: 10.1039/d2sc03136a
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The pursuit of polymethine fluorophores with NIR-II emission and high brightness forin vivoapplications

Abstract: Polymethine cyanine dyes, as the most important class of organic near-Infrared-II (NIR-II) fluorophores, recently received increasing attention due to their high molar extinction coefficients, intensive fluorescence brightness, and flexible wavelength...

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Cited by 65 publications
(32 citation statements)
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“…, the instability of conventional dyes and the low brightness of polymers). 76–78 Chan and coworkers designed and synthesized three types of polymethine-based SPs (Pttc-SeBTa-NIR1125/1270/1380) with narrow absorption and emission bands for NIR-IIb (1500–1700 nm) fluorescence imaging of whole-body blood vessels and the mouse brain. 79 They synthesized a SP with anti-ACQ properties because the rigid three-dimensional structure of the Pttc monomer and the steric hindrance of the SeBTa monomer were both conducive to preventing the ACQ effect.…”
Section: High-performance Nir-ii Sps For High-resolution In Vivo Fluo...mentioning
confidence: 99%
“…, the instability of conventional dyes and the low brightness of polymers). 76–78 Chan and coworkers designed and synthesized three types of polymethine-based SPs (Pttc-SeBTa-NIR1125/1270/1380) with narrow absorption and emission bands for NIR-IIb (1500–1700 nm) fluorescence imaging of whole-body blood vessels and the mouse brain. 79 They synthesized a SP with anti-ACQ properties because the rigid three-dimensional structure of the Pttc monomer and the steric hindrance of the SeBTa monomer were both conducive to preventing the ACQ effect.…”
Section: High-performance Nir-ii Sps For High-resolution In Vivo Fluo...mentioning
confidence: 99%
“…[14][15][16] However, the long flexible conjugated chains also cause some problems, including insufficient fluorescence brightness, poor molecular stability, and unsatisfactory biocompatibility. 17 Nevertheless, xanthenoid dyes usually have high brightness and excellent stability, 18 with maximum emission wavelengths redshifted to the near-infrared window by using some structural modification strategies, such as -conjugation extension, replacement of the oxygen atom with other atoms, and cyclization, 19 although the wavelengths often remain below 800 nm. 20 Based on these observations, we have designed a series of shortwave infrared fluorescent dyes CX 21 and Chrodol, 22 with adjustable wavelengths, by creatively combining the respective advantages of cyanine and xanthenoid dyes.…”
Section: Account Synlett 3 Fluorescent Dyes and Fluorescent Probes Co...mentioning
confidence: 99%
“…As an important class of near-infrared chromophores, despite their relatively poor photostability, heptamethine cyanine dyes have aroused great interest due to the ease of structural modifications to extend these chromophores’ fluorescence into the NIR-II range and their high absorption coefficient. But their long conjugation architecture and hydrophobicity usually prevent them from being renal clearable, thus limiting their applications in the detection and imaging of kidney diseases. Attempts to improve the water solubility of these dyes by introducing hydrophilic group(s) at both ends of the dyes may not make them kidney clearable. For example, indocyanine green (ICG), which has been approved by the FDA for clinical applications, is water soluble because hydrophilic sulfonate groups have been introduced on both sides of the conjugation architecture, and yet it remains hepatic clearable instead of renal clearable; this is because the conjugation skeleton in the middle remains hydrophobic and easily binds with proteins in vivo, resulting in the formation of particles too large to be renal clearable; the same is true for the hydrophilic group PEG n ( n = 3–45), as displayed in Scheme A.…”
Section: Introductionmentioning
confidence: 99%