Formation of the Inclusion Complex of Orange Ⅱ with β-Cyclodextrin and Its Photostability 被引量：2

Formation of the Inclusion Complex of Orange Ⅱ with β-Cyclodextrin and Its Photostability

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摘要 Inclusion complex of Orange II with β-Cyclodextrin (β-CD) and the anti-photolysis effect under UV-light were investigated. The molar ratio of inclusion complex of β-Cyclodextrin and Orange Ⅱ is 1∶1. The formation constant K=1.236×10 3 L/mol was determined by the UV and Fluorescence spectra respectively, which was quite in accordance with the calculation with a modified Benesi-Hildbrand equation. The inclusion complex was characterized by the IR spectra and the molar ratio of inclusion complex is 1∶1 too. The formation constant K=1.266×10 3 L/mol was determined by 1 H NMR analysis and was nearly the same by UV and fluorescence spectra. The photocatalytic decolorization rate of Orange Ⅱ solutions containing β-CD and TiO_ 2 was smaller by 51.9% than that of the Orange Ⅱ solutions only containing TiO_ 2 , while in the case of direct photolysis of Orange Ⅱ solutions, β-CD can lower the photolysis rate by 48.1% under UV-light. This result indicates β-CD can inhibit the photolysis and photocatalytic decolorization of Orange Ⅱ under UV-light. The β-CD inclusion complex was found to be persistent to UV-light photolysis. Inclusion complex of Orange II with β-Cyclodextrin (β-CD) and the anti-photolysis effect under UV-light were investigated. The molar ratio of inclusion complex of β-Cyclodextrin and Orange Ⅱ is 1∶1. The formation constant K=1.236×10 3 L/mol was determined by the UV and Fluorescence spectra respectively, which was quite in accordance with the calculation with a modified Benesi-Hildbrand equation. The inclusion complex was characterized by the IR spectra and the molar ratio of inclusion complex is 1∶1 too. The formation constant K=1.266×10 3 L/mol was determined by 1 H NMR analysis and was nearly the same by UV and fluorescence spectra. The photocatalytic decolorization rate of Orange Ⅱ solutions containing β-CD and TiO_ 2 was smaller by 51.9% than that of the Orange Ⅱ solutions only containing TiO_ 2 , while in the case of direct photolysis of Orange Ⅱ solutions, β-CD can lower the photolysis rate by 48.1% under UV-light. This result indicates β-CD can inhibit the photolysis and photocatalytic decolorization of Orange Ⅱ under UV-light. The β-CD inclusion complex was found to be persistent to UV-light photolysis.

作者 LuPing LiuBin ZhangZhe WuFeng DengNan-sheng

机构地区 CollegeofResourceandEnvironmentalScience DepartmentofEnvironmentalandChemicalEngineering

出处《Wuhan University Journal of Natural Sciences》 CAS 2003年第04A期1147-1152,共6页 武汉大学学报（自然科学英文版）

基金 SupportedbytheNationalNaturalScienceFoundationofChina(2 0 1 770 1 7)

关键词 Β-CYCLODEXTRIN Orange Ⅱ inclusion complex PHOTOSTABILITY β-Cyclodextrin Orange Ⅱ inclusion complex photostability

分类号 O657.3 [理学—分析化学]

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5[2]Zhang F, Wolf GK, Wang X, et al. Surface properties of silver doped titanium oxide films [J]. Surface and Coatings Technol, 2001, 148:65-70.
6[4]Wu F, Deng N, Zuo Y. Discoloration of dye solutions induced by solar photolysis of ferrioxalate in aqueous solutions[J]. Chemosphere, 1999, 39(12):2079-2085.
7[5]Makela M, Korpela T, Laakso S. Colorimetric determination of (-cyclodextrin: Two assay modifications based on molecular complexation ofphenolphthalein[J]. J Biochemical and Biophysical Methods, 1987, 14:85-92.
8[6]Zhao J, Hidaka H, Takamura A, et al. Photodegradation of surfactants. 11. ζ-potential measurements in the photocatalytic oxidation of surfactants in aqueous dispersions[J]. Langmuir, 1993, 9:1646-1650.
9[7]Lee J, Park S. Electrochemistry of guest molecules in thiolated cyclodextrin self-assembled monolayers: An implication for size-selective sensors[J]. J Phys Chem B,1998, 102:9940-9945.
10[8]Rajh T, Ostafin AE, Micic OI, et al. Surface modification of small particle TiO2 colloids with cysteine for enhanced photochemistry reduction: An EPR study [J]. J Phys Chem, 1996, 100: 4538-4545.

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Wuhan University Journal of Natural Sciences

2003年第04A期

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Formation of the Inclusion Complex of Orange Ⅱ with β-Cyclodextrin and Its Photostability 被引量：2

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