Recent advances in organic near-infrared ratiometric small-molecule fluorescent probes

•A brief introduction of the categories, advantages, and applications of fluorescent probes.•The advantages of NIR ratiometric small-molecule fluorescent probes.•Details the design principles and applications of NIR ratiometric small-molecule fluorescent probes.•The achievements of NIR ratiometric s...

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Vydáno v:Coordination chemistry reviews Ročník 486; s. 215130
Hlavní autoři: Qi, Ya-Lin, Li, Yun-Zhan, Tan, Ming-Jun, Yuan, Fang-Fang, Murthy, Niren, Duan, Yong-Tao, Zhu, Hai-Liang, Yang, Sheng-Yu
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 01.07.2023
Témata:
Near-infrared
Ratiometric
Small-molecule fluorescent probes
APAP
NTRs
ALP
CHL
HNO
H2O2
MPO
NBD
PGP-1
RNS
Near-infrared
HBT
Cys
AIE
NAFL
SO32
LOD
AD
Small-molecule fluorescent probes
H2S
DCI
ER
HSO3
CES
RSS
N2H4
CCl4
ROS
IET
TBET
FA
Hcy
HClO
TPEA
NADPH
NO
RCS
TPE
DLS
FCCP
CYP3A5
PDI
HBTN
AIEE
Ratiometric
SO2
OH
FRET
ONOO
GSH
TFAs
CN
CO
ESIPT
ICG
ACR
PA
TG
TTMAH
PMMA
GGT
NIR
TM
ICT
PET
ISSN:0010-8545, 1873-3840
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Popis
Shrnutí:•A brief introduction of the categories, advantages, and applications of fluorescent probes.•The advantages of NIR ratiometric small-molecule fluorescent probes.•Details the design principles and applications of NIR ratiometric small-molecule fluorescent probes.•The achievements of NIR ratiometric small-molecule fluorescent probes.•The challenges and opportunities that remain in the field of NIR ratiometric small-molecule fluorescent probes. The burgeoning organic near-infrared (NIR) ratiometric small-molecule fluorescent probes with excellent merits have attracted great attention over the past few years. The traditional intensity-based probes are unable to output reliable and accurate detection signals as well as to realize quantitative determination of analytes due to the lack of an “internal standard method”. The smart dual emission probes with built-in correction ability can overcome the “Achilles' heel” of the single channel fluorescent probes, such as concentration-dependent and microenvironment sensitive, to enable reliable quantitative image analysis. Furthermore, fluorescent chemosensors in the NIR window (650–1700 nm) have great advantages, including high signal-to-noise (S/N) ratio, low tissue damage, and deep tissue penetration. Therefore, the NIR ratiometric fluorescent probes combine the advantage of the ratiometric fluorescent probes and the single-intensity-based NIR probes. Nowadays, these robust multichannel probes have been widely applied for biomedical research and clinical practice. In this review, we systematically summarized the recent advances (2020–2022) in these kinds of probes. The design strategies, sensing mechanisms, and bioapplications of these intelligent fluorescent probes were discussed. Moreover, the challenges and prospects in this promising field were addressed, and we anticipated that our work would inspire the development of organic NIR ratiometric fluorescent probes.
ISSN:0010-8545
1873-3840
DOI:10.1016/j.ccr.2023.215130