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    Journals >Spectroscopy and Spectral Analysis >Volume 41 >Issue 10 >Page 3045 > Article
    • Spectroscopy and Spectral Analysis
    • Vol. 41, Issue 10, 3045 (2021)
    Study on the Rapid Identification of Flavonoids in Chestnut Rose (Rosa Roxburghii Tratt) by FTIR
    Jing ZHOU1、*, Qing-qing ZHANG1、1; 2;, Jin-guo JIANG2、2;, Qian NIE2、2;, and Zhong-chen BAI1、1; 2; *;
    Author Affiliations
  • 11. College of Medicine, Guizhou University, Guiyang 550025, China
  • 22. Guizhou Province Key Laboratory for Photoelectric Technology and Application, Guizhou University, Guiyang 550025, China
    • show less
    DOI: 10.3964/j.issn.1000-0593(2021)10-3045-06 Cite this Article
    Jing ZHOU, Qing-qing ZHANG, Jin-guo JIANG, Qian NIE, Zhong-chen BAI. Study on the Rapid Identification of Flavonoids in Chestnut Rose (Rosa Roxburghii Tratt) by FTIR[J]. Spectroscopy and Spectral Analysis, 2021, 41(10): 3045 Copy Citation Text show less
    (a) the surface morphology of fresh chestnut rose pulp; (b) the surface morphology of chestnut rose pulp after being stored at room temperature for 48 hours
    Fig. 1. (a) the surface morphology of fresh chestnut rose pulp; (b) the surface morphology of chestnut rose pulp after being stored at room temperature for 48 hours
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    Infrared spectra of fresh chestnut rose pulp and chestnut rose pulp stored at room temperature for 48 h(a): Fresh pulp sample; (b): Stored at room temperature for 48
    Fig. 2. Infrared spectra of fresh chestnut rose pulp and chestnut rose pulp stored at room temperature for 48 h
    (a): Fresh pulp sample; (b): Stored at room temperature for 48
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    (a) and (b) are the infrared spectra of fresh pulp and dried pulp samples by ultrasonic-assisted solvent extraction, respectively
    Fig. 3. (a) and (b) are the infrared spectra of fresh pulp and dried pulp samples by ultrasonic-assisted solvent extraction, respectively
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    a, b are the corresponding infrared spectral transmittance intensities at 3 431 cm-1 of fresh pulp and dried pulp using ultrasonic-assisted solvent extraction
    Fig. 4. a, b are the corresponding infrared spectral transmittance intensities at 3 431 cm-1 of fresh pulp and dried pulp using ultrasonic-assisted solvent extraction
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    (a) and (b) are the morphology and infrared spectrum of the flavonoid powder sample extracted by the ultrasonic-assisted solvent extraction method under the microscope
    Fig. 5. (a) and (b) are the morphology and infrared spectrum of the flavonoid powder sample extracted by the ultrasonic-assisted solvent extraction method under the microscope
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    (a) and (b) are the Fourier infrared spectra of samples extracted from fresh pulp and dried pulp using ultrasound combined with enzyme-assisted semi-biomimetic method to simulate gastric digestion
    Fig. 6. (a) and (b) are the Fourier infrared spectra of samples extracted from fresh pulp and dried pulp using ultrasound combined with enzyme-assisted semi-biomimetic method to simulate gastric digestion
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    a and b are the corresponding transmittance intensity at 3 419 cm-1 of the infrared spectrum of the fresh pulp and dried pulp by ultrasound combined with enzyme-assisted semi-bionic simulated gastric digestion sample
    Fig. 7. a and b are the corresponding transmittance intensity at 3 419 cm-1 of the infrared spectrum of the fresh pulp and dried pulp by ultrasound combined with enzyme-assisted semi-bionic simulated gastric digestion sample
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    (a) and (b) are the Fourier infrared spectra of fresh pulp and dried pulp samples by ultrasound combined with enzyme-assisted semi-bionic gastric acid simulation extraction
    Fig. 8. (a) and (b) are the Fourier infrared spectra of fresh pulp and dried pulp samples by ultrasound combined with enzyme-assisted semi-bionic gastric acid simulation extraction
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    (a) and (b) are the infrared spectra of the simulated extraction samples of fresh pulp and dried pulp ultrasonic combined with enzyme assisted semi-bionic intestinal digestion
    Fig. 9. (a) and (b) are the infrared spectra of the simulated extraction samples of fresh pulp and dried pulp ultrasonic combined with enzyme assisted semi-bionic intestinal digestion
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    名称ν(O—H)羟基ν(C=O)ν(C=C)ν(C—H)烷基ν(C—H)苯环上
    样品13 3691 6121 527, 1 4391 262, 1 235, 1 026926, 896
    样品23 4651 675, 1 6131 4091 158920, 865
    Table 1. Infrared vibrations study of fresh chestnut rose pulp (sample 1) and chestnut rose pulp stored at room temperature for 48 h (sample 2)
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    Jing ZHOU, Qing-qing ZHANG, Jin-guo JIANG, Qian NIE, Zhong-chen BAI. Study on the Rapid Identification of Flavonoids in Chestnut Rose (Rosa Roxburghii Tratt) by FTIR[J]. Spectroscopy and Spectral Analysis, 2021, 41(10): 3045
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