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    Journals >Spectroscopy and Spectral Analysis >Volume 42 >Issue 11 >Page 3321 > Article
    • Spectroscopy and Spectral Analysis
    • Vol. 42, Issue 11, 3321 (2022)
    Research Progress of Near-Infrared Fluorescent Probes for Hydrogen Sulfide
    Jiang-tao SONG*, Yue-hua YUAN, Yong-jun ZHU, Yu-zhen WANG, Mao-zhong TIAN*;, and Feng FENG*;
    Author Affiliations
  • College of Chemistry and Chemical Engineering, Shanxi Provincial Key Laboratory of Chemical Biosensing, Shanxi Datong University, Datong 037009, China
    • show less
    DOI: 10.3964/j.issn.1000-0593(2022)11-3321-09 Cite this Article
    Jiang-tao SONG, Yue-hua YUAN, Yong-jun ZHU, Yu-zhen WANG, Mao-zhong TIAN, Feng FENG. Research Progress of Near-Infrared Fluorescent Probes for Hydrogen Sulfide[J]. Spectroscopy and Spectral Analysis, 2022, 42(11): 3321 Copy Citation Text show less
    Chemical structures of DNP-based fluorescent probes for H2S
    Fig. 1. Chemical structures of DNP-based fluorescent probes for H2S
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    Chemical structures of NBD-based fluorescent probes for H2S
    Fig. 2. Chemical structures of NBD-based fluorescent probes for H2S
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    Chemical structures of DNBS-based fluorescent probes for H2S
    Fig. 3. Chemical structures of DNBS-based fluorescent probes for H2S
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    Chemical structures of other H2S fluorescent probes based on nucleophilic attack
    Fig. 4. Chemical structures of other H2S fluorescent probes based on nucleophilic attack
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    Chemical structures of H2S fluorescent probes based on azide reduction(a, b, c)
    Fig. 5. Chemical structures of H2S fluorescent probes based on azide reduction(a, b, c)
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    Chemical structures of H2S fluorescent probes based on reduction of nitro groups to amines (a, b)
    Fig. 6. Chemical structures of H2S fluorescent probes based on reduction of nitro groups to amines (a, b)
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    Chemical structures of H2S fluorescent probes based on disulfide exchange (a and b) and addition reaction (c and d)
    Fig. 7. Chemical structures of H2S fluorescent probes based on disulfide exchange (a and b) and addition reaction (c and d)
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    Schematic illustration of nanoprobe (NPs@BOD/CPT) for H2S[28]
    Fig. 8. Schematic illustration of nanoprobe (NPs@BOD/CPT) for H2S[28]
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    Schematic illustration of nanoprobe (TPAMC-UCNPs@PEG) for H2S[28]
    Fig. 9. Schematic illustration of nanoprobe (TPAMC-UCNPs@PEG) for H2S[28]
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    Schematic illustration of nanoprobe (12+-SNPs) for H2S[29]
    Fig. 10. Schematic illustration of nanoprobe (12+-SNPs) for H2S[29]
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    Schematic illustration of multi-wavelength nanoprobe for H2S[30]
    Fig. 11. Schematic illustration of multi-wavelength nanoprobe for H2S[30]
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    Schematic illustration of the synthesis procedure of Ag-CEW nanoprobe and endogenous H2S-triggered highly specific visualization of colon cancer[31]
    Fig. 12. Schematic illustration of the synthesis procedure of Ag-CEW nanoprobe and endogenous H2S-triggered highly specific visualization of colon cancer[31]
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    Jiang-tao SONG, Yue-hua YUAN, Yong-jun ZHU, Yu-zhen WANG, Mao-zhong TIAN, Feng FENG. Research Progress of Near-Infrared Fluorescent Probes for Hydrogen Sulfide[J]. Spectroscopy and Spectral Analysis, 2022, 42(11): 3321
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