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    Journals >The Journal of Light Scattering >Volume 37 >Issue 1 >Page 23 > Article
    • The Journal of Light Scattering
    • Vol. 37, Issue 1, 23 (2025)
    In situ detection of dyed Croci Stigma using MIL-101 (Cr) modified thin-layer chromatography surface enhanced Raman spectroscopy
    ZHANG Binbin1, XU Yunlong1, WANG Pu2, and PANG Jilei1,*
    Author Affiliations
  • 1Bengbu Medical University, School of Fundamental Sciences, Bengbu 233030, China
  • 2Hefei University of Technology, Xuancheng, 242000, China
    • show less
    DOI: 10.13883/j.issn1004-5929.202501004 Cite this Article
    ZHANG Binbin, XU Yunlong, WANG Pu, PANG Jilei. In situ detection of dyed Croci Stigma using MIL-101 (Cr) modified thin-layer chromatography surface enhanced Raman spectroscopy[J]. The Journal of Light Scattering, 2025, 37(1): 23 Copy Citation Text show less
    References

    [1] Zou M M, Dong M, Zhao T. Advances in Metal-Organic Frameworks MIL-101(Cr)[J]. International Journal of Molecular Sciences, 2022, 23(16): 9396.

    [2] Ding M L, Liu W B, Gref R. Nanoscale MOFs: From synthesis to drug delivery and theranostics applications[J]. Advanced Drug Delivery Reviews, 2022, 190: 114496.

    [3] Qiu S, Wang Y, Wan J, et al. Enhancing water stability of MIL-101(Cr) by doping Ni(II)[J]. Applied Surface Science, 2020, 525: 146511.

    [4] Frey G, Mellot-Draznieks C, Serre C, et al. A Chromium Terephthalate-Based Solid with Unusually Large Pore Volumes and Surface Area[J]. Science, 2005, 309(5743): 2040-2042.

    [5] Zhou H M, Zhu A N, Wang C Y, et al. Preparation of gold nanoparticles loaded MOF-199 for SERS detection of 5-hydroxyindole-3-acetic acid in serum[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2024, 304: 123280.

    [7] Li Y F, Zou C J, Liu X B, et al. Highly Sensitive and Selective Detection of Pharmaceuticals on Au/MIL-101(Cr) by SERS[J]. Analytical chemistry, 2023, 95(20): 7933-7940.

    [9] Wen C, Li R S, Chang X X, et al. Metal-Organic Frameworks-Based Optical Nanosensors for Analytical and Bioanalytical Applications[J]. Biosensors, 2023, 13(1): 128.

    [10] Zhou X, Huang W Y, Shi J, et al. A novel MOF/graphene oxide composite GrO@ MIL-101 with high adsorption capacity for acetone[J]. Journal of Materials Chemistry A, 2014, 2(13): 4722-4730.

    [11] Hu Y, Liao J, Wang D, et al. Fabrication of Gold Nanoparticle-Embedded Metal-Organic Framework for Highly Sensitive Surface-Enhanced Raman Scattering Detection[J]. Analytical Chemistry, 2014, 86(8): 3955-3963.

    [12] Yang L B, Li P, Liu H L, et al. A dynamic surface enhanced Raman spectroscopy method for ultra-sensitive detection: from the wet state to the dry state[J]. Chemical Society Reviews, 2015, 44(10): 2837-2848.

    [14] Li Y S, Cheng J C, Wang Y. Surface-enhanced Raman spectra of dyes and organic acids in silver solutions: chloride ion effect[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2000, 56(11): 2067-2072.

    [15] Liu Y P, Lu Z W, Zhu H B, et al. Characterization of a Chloride-Activated Surface Complex and Corresponding Enhancement Mechanism by SERS Saturation Effect[J]. The Journal of Physical Chemistry C, 2017, 121(1): 950-957.

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    ZHANG Binbin, XU Yunlong, WANG Pu, PANG Jilei. In situ detection of dyed Croci Stigma using MIL-101 (Cr) modified thin-layer chromatography surface enhanced Raman spectroscopy[J]. The Journal of Light Scattering, 2025, 37(1): 23
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