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THQ–Xanthene: An Emerging Strategy to Create Next‐Generation NIR‐I/II Fluorophores

Zhiqiang Mao, Hyeonji Rha, Jungryun Kim, Jungryun Kim, Xinru You, Fan Zhang, Wei Tao, Jong Seung Kim, Jong Seung Kim

2023Advanced Science61 citationsDOIOpen Access PDF

Abstract

Near-infrared fluorescence imaging is vital for exploring the biological world. The short emissions (<650 nm) and small Stokes shifts (<30 nm) of current xanthene dyes obstruct their biological applications since a long time. Recently, a potent and universal THQ structural modification technique that shifts emission to the NIR-I/II range and enables a substantial Stokes shift (>100 nm) for THQ-modified xanthene dyes is established. Thus, a timely discussion of THQ-xanthene and its applications is extensive. Hence, the advent, working principles, development trajectory, and biological applications of THQ-xanthene dyes, especially in the fields of fluorescence probe-based sensing and imaging, cancer theranostics, and super-resolution imaging, are introduced. It is envisioned that the THQ modification tactic is a simple yet exceptional approach to upgrade the performance of conventional xanthene dyes. THQ-xanthene will advance the strides of xanthene-based potentials in early fluorescent diagnosis of diseases, cancer theranostics, and imaging-guided surgery.

Topics & Concepts

XantheneNanotechnologyFluorescenceMaterials scienceChemistryPhotochemistryOpticsPhysicsNanoplatforms for cancer theranosticsLuminescence and Fluorescent MaterialsMolecular Sensors and Ion Detection
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