N Zhu scite author profile

Herein we report two new TPE‐based 3D MOFs, that is, Sr‐ETTB and Co‐ETTB (TPE=Tetraphenylethylene, H8ETTB=4′,4′′′,4′′′′′,4′′′′′′′‐(ethene‐1,1,2,2‐tetrayl)tetrakis(([1,1′‐biphenyl]‐3,5‐dicarboxylic acid))). Through tailoring outer shell electron configurations of SrII and CoII cations, the fluorescence intensity of the MOFs is tuned from high emission to complete non‐emission. Sr‐ETTB with strong blue fluorescence shows reversible fluorescence variations in response to pressure and temperature, which is directly related to the reversible deformation of the crystal structure. In addition, non‐emissive Co‐ETTB counterpart exhibits a turn‐on fluorescent enhancement under the stimulation of analyte histidine. In the process, TPE‐cored linkers in the MOFs are released through competitive coordination substitution and subsequently reassembled to perform aggregation‐induced luminescence behavior originated from the organic linkers.

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A stable nanoscaled Zr-MOF for the detection of toxic mycotoxin through a pH-modulated ratiometric luminescent switch

Guo

Zhu

Lou

et al. 2020

Chem. Commun.

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Mitochondria-Immobilized Unimolecular Fluorescent Probe for Multiplexing Imaging of Living Cancer Cells

et al. 2020

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Cancer incidence and mortality are fast growing worldwide. Recently, multiplexing imaging methods have been reported to be vital for cancer diagnosis and therapy. Fluorescence imaging, which has intrinsic capabilities for multiplexing imaging, is suitable and ripe for cancer imaging. In biomedical research, using a single probe for multiplexing imaging can avoid larger invasive effects and ensure the same spatiotemporal distributions and metabolisms of the probes, which has advantages over using multiple probes. Therefore, developing unimolecular fluorescent probes for multiplexing imaging of living cancer cells is meaningful. We herein report a unimolecular fluorescent probe (ZED) that simultaneously detects cysteine/homocysteine, hypochlorous acid, mitochondrial membrane potential (Δψ m ), and opening of the mitochondrial permeability transition (MPT) pore in cells. These four analytes are key indicators predominantly associated with multiple aspects of carcinogenesis and cancer therapy in living cells. Besides, ZED also differentiates MCF-7 cells from HBL-100 cells. The sensing process is fast, selective, and sensitive in living cancer cells. As far as we know, ZED is the first probe that simultaneously detects four analytes in cells and the first probe that simultaneously detects Δψ m and opening of the MPT pore in mitochondria.

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A mitochondria-tracing fluorescent probe for real-time detection of mitochondrial dynamics and hypochlorous acid in live cells

et al. 2022

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Stimuli‐Responsive Luminescent Properties of Tetraphenylethene‐Based Strontium and Cobalt Metal–Organic Frameworks

et al. 2020

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N Zhu

Stimuli‐Responsive Luminescent Properties of Tetraphenylethene‐Based Strontium and Cobalt Metal–Organic Frameworks

A stable nanoscaled Zr-MOF for the detection of toxic mycotoxin through a pH-modulated ratiometric luminescent switch

Mitochondria-Immobilized Unimolecular Fluorescent Probe for Multiplexing Imaging of Living Cancer Cells

A mitochondria-tracing fluorescent probe for real-time detection of mitochondrial dynamics and hypochlorous acid in live cells

Stimuli‐Responsive Luminescent Properties of Tetraphenylethene‐Based Strontium and Cobalt Metal–Organic Frameworks

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