Nghiên cứu khả năng tạo phức của một số dẫn xuất mới của azocalixaren với ion kim loại và ứng dụng trong phân tích - 15


conformational properties of new azocalix[4]arenes”, Tetrahedron 62, pp. 7854-7865.

37. Chen Y. J., Chung W. S. (2009), “Tetrazoles and para-substituted phenylazo- coupled calix[4]arenes as highly sensitive chromogenic sensors for Ca2+”, Eur. J. Org. Chem. 28, pp. 4770-4776.

38. Chen C. F., Chen Q. Y. (2006), “Azocalix[4]arene-based chromogenic anion probes”, New J. Chem. 30, pp. 143-147.

39. Chiodo L. M., Jacobson S. W., Jacobson J. L. (2004), “Neurodevelopmental effects of postnatal lead exposure at very low levels”, Neurotoxicology and Teratology 26, pp. 359-371.

40. Creaven B. S., Dorlon D. F., McGinley J. (2009), “Coordination chemistry of calix[4]arene derivatives with lower rim functionalisation and their applications”, Coord. Chem. Rev. 253, pp. 893-962.

41. Cunningham W. C., Stroube W. B. J. (1987), “Application of an instrumental neutron activation analysis procedure to analysis of food”, The Science of the Total Environment 63, pp. 29-43.

42. Currie L. A. (1999), “Detection and quantification limits: origins and historical overview”, Analytica Chimica Acta 391, pp. 127-134.

43. Daly S. R., Piccoli P. M. B., Schultz A. J., Todorova T. K., Gagliardi L., Girolami G. S. (2010), “Synthesis and Properties of a Fifteen-Coordinate Complex: The Thorium Aminodiboranate [Th(H3BNMe2BH3)4]”, Angew. Chem. Int. Ed. 49, pp. 1-4.

44. Davis A. V., Raymond K. N. (2005), "The Big Squeeze: Guest Exchange in an M4L6 Supramolecular Host", J. Am. Chem. Soc. 127, pp. 7912-7919.

Có thể bạn quan tâm!

Xem toàn bộ 130 trang tài liệu này.

45. Deligoz H., Erdem E. (1997), “Liquid-liquid extraction of transition metal

cations by diazocoupling calix[4]arene derivatives”. Solvent Extraction and Ion Exchange 15(5), pp. 811-817.

Nghiên cứu khả năng tạo phức của một số dẫn xuất mới của azocalixaren với ion kim loại và ứng dụng trong phân tích - 15

46. Deligoz H., Erdem E. (2000), “Solvent extraction of Fe3+ cation by diazo-

coupling calix[4]arenes”, Turk. J. Chem. 24, pp. 157-163.


47. Deligoz H. (2002), “Synthesis and Properties of a Series of Novel Calix[6]arene Diazo Derivatives”, Journal of Inclusion Phenomena and Macrocyclic Chemistry 43, pp. 285-289.

48. Deligoz H. (2006), “Azocalixarenes 6: synthesis, characterization, complexation, extraction, absorption properties and thermal behaviours”, J. Incl. Phenom. Macrocycl. Chem. 55(3-4), pp. 197-218.

49. Deligoz H., Erdem E. (2008), “Comparative studies on the solvent extraction of transition metal cations by calixarene, phenol and ester derivatives”, J. Hazard. Mater. 154, pp. 29-32.

50. Deligoz H., Ak M. S., Memon S., Yilmaz M. (2008), “Azocalixarene. 5: p- Substituted Azocalix[4]arenes as Extractants for Dichromate Anions”, Pak. J. Anal. Environ. Chem. 9(1), pp. 1-5.

51. Deligoz H., Ozlem O. K., Cilgi C. K. (2012), “A Breaf Review on the Thermal Behavior of Calixarene-Azocalixarene Derivatives and Their Complexes”, Journal of Macromolecular Science 49(3), pp. 259-274.

52. Deligoz H., Memon S. (2011), “An Overview on Metal Cations Extraction by Azocalixarenes”, Pak. J. Anal. Environ. Chem. 12, (1-2), pp. 1-24.

53. Dong Y., Kim T. H., Kim H. J., Le M. H. (2009), “Spectroscopic and electrochemical studies of two distal diethyl ester azocalix[4]arene derivatives”, Journal of Electroanalytical Chemistry 628 (1-2), pp.119-124.

54. Ebdelli R., Rouis A., Mlika R., Bonnamour I., Ben O. H., Davenas J. (2011),

Photo-physical and complexation properties of chromogenic azo- calix[4]arene: Application to the detection of Eu3+”, Journal of Molecular Structure 1006, pp. 210-215.

55. Ebdelli R., Rouis A., Mlika R., Bonnamour I., Renault N.J., Ben O. H., Davenas J. (2011), “Electrochemical impedance detection of Hg2+, Ni2+ and Eu3+ ions by a new azo-calix[4]arene membrane”, Journal of Electroanalytical Chemistry 661(1), pp. 31-38.


56. Echabaane M., Rouis A., Bonnamour I., Ben O. H. (2012) “Characterization of an azo-calix[4]arene-based optical sensor for Europium (III) ions”, Materials Science and Engineering 32(5), pp. 1218-1221.

57. Ehlinger N., Lecocq S., Perrin R., Perrin M. (1993), “Study of calixarenes-dyes. Structure of p-tetrakis(pheny1azo)calix [4] arene”, Supramolecular Chemistry 2, pp. 77-82.

58. European Commission- Scientific Committee on Food (2003), “Opinion of the Scientific Committee on Food on the Tolerable Upper Intake Level of Trivalent Chromium”, pp. 1-18.

59. Ewais H. A., Dahman F. D., Abdel K A. A. (2009), “Inner-sphere oxidation of ternary iminodiacetatochromium(III) complexes involving DL-valine and L- arginine as secondary ligands. Isokinetic relationship for the oxidation of ternary iminodiacetato-chromium(III) complexes by periodate”, Chemistry Central Journal 3(3), pp. 1-12.

60. Falco P. C., Reig F. B., Anderes J. V. (1992), “Evaluation and elimination of the “blank bias errror” using the H-point standard addition method: application to spectrophotometric determination on using absorbent blank”, Anal. Chim. Acta. 270(1), pp. 253-265.

61. Falco P. C., Reig F. B., Benet A.M. (1990), “Spectrophotometric analysis of mixtures of two components with extensively or completely overlapping spectra by the H-point standard additions method”, Fresenius J. Anal. Chem 338, pp. 16-21.

62. Fang G., Liu Y., Meng S., Guo Y. (2002), “Spectrophotometric determination of lead in vegetables with dibromo-p-methyl-carboxysulfonazo”, Talanta 57, pp. 1155-1160.

63. Farrington K., Magner E., Regan F. (2006), “Predicting the performance of molecularly imprinted polymers: Selective extraction of caffeine by molecularly imprinted solid phase extraction”, Analytica Chimica Acta 566, pp. 60-68.


64. Gumrah O., Malcik N., Caglar P. (2009), “Optical ligand–thorium complex sensors using various reagents and the comparison of formation constants obtained in dip probe, flow cell and microchip systems”, Sensors and Actuators B 139, pp. 125-131.

65. Gutsche D. (1992), “Calixarenes”, Royal Society of Chemistry, pp. 10-20.

66. Gong L. B., Gong S. L., Zheng Q., Li X., Chen Y. Y. (2007), “High extraction ability of 1,3-dialkynyl calixarene towards mercury(II) ion”, Chin. Chem. Lett. 18, pp. 435-436.

67. Halouani H., Bonnamour I. D., Duchamp C., Bavoux C., Ehlinger N., Perrin M., Lamartine R. (2002), “Synthesis, Conformations and Extraction Properties of New Chromogenic Calix[4]arene Amide Derivatives”, Eur. J. Org. Chem. 24, pp. 4202-4210.

68. Harrowfield J. M., Ogden M. I., Skelton B. W., White A. H. (2004), “Actinide coordination chemistry-a unique example of a homoleptic complex of nine- coordinate thorium(IV)”, Inorganica Chimica Acta 357, pp. 2404-2406.

69. Hernberg S. (2000), “Lead Poisoning in a Historical Perspective”, American Journal of Industrial Medicine 38, pp. 244-254.

70. Ho T., Lee G. H., Chung W. S. (2007), “Synthesis of upper-rim allyland p- methoxyphenylazocalix[4]arenes and their efficiencies in chromogenic sensing of Hg2+ ion”, J. Org. Chem. 72(7), pp. 2434-2442.

71. Huang Y. M., Tsai H. R., Lai S. H., Lee S. J., Chen I. C. (2011), “Bonding between Chromium Atoms in Metal-String Complexes from Raman Spectra and Surface-Enhanced Raman Scattering: Vibrational Frequency of the Chromium Quadruple Bond”, J. Phys. Chem. C. 115, pp. 13919-13926.

72. Huo D., Yang L., Hou C. J., Fa H. B., Luo X. G., Lue Y., Zheng X. L., Yang J., Yang L. (2009), “Molecular interactions of monosulfonate tetraphenylporphyrin (TPPS1) and meso-tetra(4-sulfonatophenyl)porphyrin (TPPS) with dimethyl methylphosphonate (DMMP)”, Spectrochimica Acta Part A 74, pp. 336-343.


73. Jain V. K., Pandya R. A., Pillai S. G., Shrivastav P. S. (2006), “Simultaneous preconcentration of uranium(VI) and thorium(IV) from aqueous solutions using a chelating calix[4]arene anchored chloromethylated polystyrene solid phase”, Talanta 70(2), pp. 257-266.

74. Janairo J. I. B., Janairo G. C. (2012), “Homology modelling and comparative docking analysis of two naturally occurring pancreatic glucokinase mutants” Philippine Science Letters 5(1), pp. 1-6.

75. Jung J. H., Lee S. J., Kim S. K., Lee S. H., Kim J. S. (2007), “A Color Version of the Hinsberg Test: Amine Indicator”, Chem. Eur. J. 13, pp. 3082-3088.

76. Kamboh M. A., Solangi I. B., Sherazi S. T., Memon S. (2009), “Synthesis and application of calix[4]arene based resin for the removal of azo dyes”, Journal of Hazardous Materials 172, pp. 234-239.

77. Kao T. L., Wang C. C., Pan Y. T., Shiao Y. J., Yen J. Y., Shu C. M., Lee G. H., Peng S. M., Chung W. S. (2005), “Upper rim allyl and arylazo-coupled calix[4]arenes as highly sensitive chromogenic sensors for Hg2+ ion”, J. Org. Chem. 70, pp. 2912-2920.

78. Karakus O. Z., Deligoz H. (2011), “Azocalixarenes.7: Synthesis and study of the absorption properties of novel mono-azo substituted chromogenic calix[4]arenes”, Turk. J. Chem. 35, pp. 87-98.

79. Karakus O. Z., Deligoz H. (2012), “Azocalixarenes.8: synthesis and investigation of the absorption spectra of di-substituted azocalix[4]arenes containing chromogenic groups”, J. Incl. Phenom. Macrocycl. Chem. 61(3), pp. 289-296.

80. Karci F., Sener I., Deligoz H. (2003), “Azocalixarenes. 1: synthesis, characterization and investigation of the absorption spectra of substituted azocalix[4]arenes”, Dyes and Pigment 59, pp. 53-61.

81. Karci F., Sener I., Deligoz H. (2004), “Azocalixarenes. 2: synthesis, characterization and investigation of the absorption spectra of azocalix[6]arenes containing chromogenic groups”, Dyes and Pigments 62, pp. 131-140.


82. Kaur P. P., Gupta U. (2009), “Determination of Nickel and Manganese by Kinetic H-Point Standard Addition Method”, G.U. Journal of Science 22(3), pp. 157-167.

83. Khalifa M. E., Hafez M. A. (1998), “Spectrophotometric and complexometric methods for the determination of thorium and fluoride using bromocresol orange reagent”, Talanta 47, pp. 547-559.

84. Kim S. K., Kim S. H., Kim H. J., Lee S. H., Lee S. W., Ko J., Bartsch R. A., Kim S. K. (2005), “Indium(III)-Induced Fluorescent Excimer Formation and Extinction in Calix[4]arene-Fluoroionophores”, Inorganic Chemistry 44 (22), pp. 7866-7875

85. Kim H. J., Kim S. K., Lee J. Y., Kim J. S. (2006), “Fluoride-Sensing Calix- luminophores Based on Regioselective Binding”, J. Org. Chem. 71, pp. 6611- 6614.

86. Kim T. H., Kim S. H., Tan L. V., Seo Y. J., Park S. Y., Kim H. S, Kim J. S. (2007), “Transition metal ion selective ortho-ester diazophenylcalix[4]arene”, Talanta 70, pp. 1294-1297.

87. Kim T. H., Kim S. H., Tan L. V., Dong Y., Kim H. S., Kim J. S. (2008), “Diazo-coupled calix[4]arenes for qualitative analytical screening of metal ions”, Talanta 74(5), pp. 1654-1658.

88. Kostin G. A., Us T. V., Korda T. M., Torgov V. G., Kuratieva N. V., Kalchenko V. I. (2010), “Complexation and extraction of non-ferrous metals by calix[n]arene phosphine oxides”, J. Incl. Phenom. Macrocycl. Chem 68, pp. 131-137.

89. Krzek J., Apola A., Stolarczyk M., Rzeszutko W. (2007), “Spectrophotometric determination of Pb(II), Fe(III) and Bi(III) in complex with 1,2- Diaminocyclohexane-N,N,N’,N’-Tetraacetic acid (DACT)” Acta Poloniae Pharmaceutica-Drug Research, 64(1), pp. 3-8.

90. Kubinyi M., Ziegler I. M., Grofcsika A., Bitter I., Jones W. J. (1997) “Spectroscopic study of complex formation between alkali metal ions and


chromogenic calixarene derivatives”, Journal of Molecular Structure 408(409), pp. 543-546.

91. Kumar P., Shim Y. B. (2008), “Chromium(III)-selective electrode using p-(4- acetanilidazo)calix[4]arene as an ionophore in PVC matrix”, Bull. Korean Chem. Soc. 29(12), pp. 2471-2476.

92. Kumar P., Shim Y. B. (2009), A new poly(vinyl chloride) based membranes containing p-(4-N-butylphenylazo)calix[4]arene (I) as an electroactive material along with sodium tetraphenylborate (NaTPB), and dibutyl(butyl)phosphonate”, Talanta 77, pp. 1057-1062.

93. Kumar A., Sharma P., Chandel L. K., Kalal B. L. (2008), “Synergistic extraction and spectrophotometric determination of palladium(II), iron(III), and tellurium(IV) at trace level by newly synthesized p-[4-(3,5-dimethylisoxazolyl) azophenylazo]calix(4)arene”, J. Incl. Phenom. Macrocycl. Chem. 61(4), pp. 335-342.

94. Kumar A., Sharma P., Chandel L. K., Kalal B. L. (2008), “Synergistic solvent extraction of copper, cobalt, rhodium and iridium into 1,2-dichloroethane at trace level by newly synthesized 25,26,27,28-tetrahydroxy-5,11,17,23-tetra-[4- (N-hydroxyl-3-phenylprop-2-enimidamido)phenylazo]calix[4]arene”, J. Incl. Phenom. Macrocycl. Chem. 62(3-4), pp. 285-292.

95. Kuselman I., Shenhar A. (1995), “Design of experiments for the determination of the detection limit in chemical analysis”, Analytica Chimica Acta 306, pp. 301-305.

96. Lang K., Proskova P., Kroupa J., Moravek J., Ivan Stibor I., Pojarova M., Lhotak P. (2008), “The synthesis and complexation of novel azosubstituted calix[4]arenes and thiacalix[4]arenes”, Dyes and Pigments 77, pp. 646-652.

97. Le N. T. N., Tan L. V. (2011), “Spectroscopic and structural studies on the complex of benzoic acid azo phenylcalix[4]arene (BAPC) with Ce4+”, Asian Journal of Chemistry, 24(5), pp. 2324-2328.


98. Leopold N., Chis V., Cozar I. B., Szabo L., Pirnau A., Cozar O. (2008), “Raman, SERS and DFT investigations of two metalchelating compounds”, Optoelectronics and Advanced Materials- Rapid communications 2(5), pp. 278-283.

99. Lhotak P., Shikai S. (1997), “Review commentary cation- intereaction calix[n]arene and related systems”, Journal of physical organic chemistry 10, pp. 273-285.

100. Li H., Zhan J., Chen M., Tian D., Zou Z. (2010), “Metal ions recognition by 1,2,3-triazolium calix[4]arene esters synthesized via click chemistry”, J. Incl. Phenom. Macrocycl. Chem. 66(1-2), pp. 43-47.

101. Liu C. J., Lin J. T., Wang S. H., Jiang J. C., Lin L. G. (2005), “Chromogenic calixarene sensors for amine detection”, Sens. Actuators B 108, pp. 521-527.

102. Lu J., Chen R., He X. (2002), “A lead ion-selective electrode based on a calixarene carboxyphenyl azo derivative”, J. Electroanalytical Chemistry 528, pp. 33-38.

103. Lu J., Tong X., He X. (2003), “Mercury ion-selective electrode based on a calixarene derivative containing the thiazole azo group”, Journal of Electroanalytical Chemistry 540, pp. 111-117.

104. Lu L., Zhu S., Liu X., Xie Z., Yan X. (2005), “Highly selective chromogenic ionophores for the recognition of chromium(III) based on a water-soluble azocalixarene derivative”, Anal. Chim. Acta. 535(1-2), pp. 183-187.

105. Ludwig R. (2000), “Calixarenes in analytical and separation chemistry”,

Fresenius J. Anal. Chem. 367, pp. 103-128.

106. Ludwig R., Dzung N. T. K. (2005), “Solvent extraction of Tc(VII) by calixarenes bearing pyridino groups”, J. Nucl. Radiochem. Sci. 6(3), pp. 227- 231.

107. Ma Q., Ma H., Su M., Wang Z., Nie L., Liang S. (2001), “Determination of nickel by a new chromogenic azocalix[4]arene”, Analytica Chimica Acta 439, pp. 73-79.

Xem toàn bộ nội dung bài viết ᛨ

..... Xem trang tiếp theo?
⇦ Trang trước - Trang tiếp theo ⇨

Ngày đăng: 10/05/2022