Near‐Infrared Fluorescence/Photoacoustic Agent with an Intensifying Optical Performance for Imaging‐Guided Effective Photothermal Therapy

Ye, Fengying; Huang, Weijin; Li, Chonglu; Li, Guangjin; Yang, Wen‐Chao; Liu, Sheng Hua; Yin, Jun; Sun, Yao; Yang, Guang‐Fu

doi:10.1002/adtp.202000170

Cited by 31 publications

(15 citation statements)

References 113 publications

(22 reference statements)

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“…In comparison to the TPA, the N , N -dimethyl group has a stronger electron-donating capability . To further extend the NIR emission of the AIE materials, we attempted to modify the molecular structure.…”

Section: Resultssupporting

confidence: 69%

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Near-Infrared Thienoisoindigos with Aggregation-Induced Emission: Molecular Design, Optical Performance, and Bioimaging Application

et al. 2021

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Thienoisoindigo as a popular conjugated skeleton has been constantly applied in the construction of organic optoelectronic materials. Exploring its new applications in fluorescent sensors and bioimaging is helpful to extend its potential. In this work, a thienoisoindigo fluorophore was first selected as a building block to be applied in the construction of the near-infrared fluorescent materials with an aggregation-induced emission manner through introducing triarylamine, thiophene-bridged triarylamine, and N,N-dimethyl styrene, respectively. These fluorescent agents showed the near-infrared emission and possessed typical aggregation-induced emission behavior. Although they had low band gaps and near-infrared emission, they presented remarkable photostability. Especially, thiophene-bridged triarylamine and N,N-dimethyl styrene-coated thienoisoindigos exhibited strong lysosomal targeting capability, and they could also serve for fluorescence imaging in vivo.

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Section: Resultssupporting

confidence: 69%

“…In comparison to the TPA, the N,N-dimethyl group has a stronger electron-donating capability. 60 To further extend the NIR emission of the AIE materials, we attempted to modify the molecular structure. On the one hand, the N,N-dimethyl group was employed to enhance the electron-donating ability.…”

Section: ■ Introductionmentioning

confidence: 99%

Near-Infrared Thienoisoindigos with Aggregation-Induced Emission: Molecular Design, Optical Performance, and Bioimaging Application

et al. 2021

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“…(3) Commonly used photoinduced electron transfer (PeT) and Förster resonance energy transfer (FRET) mechanism face challenges in the NIR-II region . (4) There was no organic fluorophore reported with >1200 nm emission maximum until last several months. , Therefore, it is not only highly demanded but also very challenging to develop a strategy that can flexibly modulate the emission wavelength and then construct long-emission activatable probes based on a stable and water-soluble fluorophore.…”

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confidence: 99%

Flexible Designing Strategy to Construct Activatable NIR-II Fluorescent Probes with Emission Maxima beyond 1200 nm

et al. 2021

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Activatable second near-infrared (NIR-II) fluorescent probes that can be lighted up by specific targets have attracted great attention because of their high specificity and resolution, which hold great promise in deep-tissue imaging. However, such probes were relatively rarely reported so far, and the emission maximum is still limited (mainly located at 900–1000 nm). To solve the problem, herein, we proposed a flexible strategy to modulate the emission wavelength of NIR-II fluorescent probes, and four proof-of-concept probes (WH-1, WH-2, WH-3, and WH-4) based on D−π-A molecular skeleton were obtained. These probes can be activated by H2S and the emission maximum located from 925 to 1205 nm, which was attributed to the cooperation of elongating the π-conjugated system and enhancing the electron-donating ability of the donor region. In these probes, WH-3 exhibited the combination of long excitation/emission (925/1140 nm) and moderate quantum yield as well as high sensitivity toward H2S, enabling us to track and image H2S in vivo with high contrast. We expected that such a molecular design strategy will become an important approach to developing activatable NIR-II fluorescent probes with long emission.

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“…Hongsg roup developed BBTD-1302 (7k)b y employing 3,4-ethylenedioxythiophene-containing bithiophene and styrene as the conjugating bridge,a nd N,Ndimethylamino groups as electron donors. [82] Theoretical calculations revealed intramolecular charge transfer (ICT) from the N,N-dimethylamino groups to the BBTD core and ab and gap of 0.88 eV,w hich afforded longer-wavelength maximum absorption/emission at 942/1302 nm. Results indicated that the styrene bridge and the N,N-dimethylamino electron donor in the design of NIR dyes can effectively induce red-shifted absorption/emission.…”

Section: Donor Modificationmentioning

confidence: 99%

The Chemistry of Organic Contrast Agents in the NIR‐II Window

Xiao

Shi

et al. 2022

Angewandte Chemie

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Optical imaging, especially fluorescence and photoacoustic imaging, is a non‐invasive imaging approach with high spatial and temporal resolution and high sensitivity, compared to positron emission tomography (PET) or magnetic resonance imaging (MRI). Due to the merits of imaging using the second near‐infrared (NIR‐II) window, like deeper penetration depth, high signal‐to‐noise ratio, high resolution, and low tissue damage, researchers have devoted great effort to developing contrast agents with NIR‐II absorption or emission. In this Review, we summarize recently developed organic luminescent and photoacoustic materials, ranging from small molecules to conjugated polymers. Then, we systematically introduce engineering strategies and describe the imaging performance classified by the skeleton cores. Finally, we elucidate the challenges and prospects of these NIR‐II organic dyes for potential clinical applications. We expect our summary can inspire researchers to expand the spectrum of NIR‐II contrast agents for diverse bioapplications.

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Near‐Infrared Fluorescence/Photoacoustic Agent with an Intensifying Optical Performance for Imaging‐Guided Effective Photothermal Therapy

Cited by 31 publications

References 113 publications

Near-Infrared Thienoisoindigos with Aggregation-Induced Emission: Molecular Design, Optical Performance, and Bioimaging Application

Near-Infrared Thienoisoindigos with Aggregation-Induced Emission: Molecular Design, Optical Performance, and Bioimaging Application

Flexible Designing Strategy to Construct Activatable NIR-II Fluorescent Probes with Emission Maxima beyond 1200 nm

The Chemistry of Organic Contrast Agents in the NIR‐II Window

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