含蒽酰亚胺基团的化合物N-(2-(6-氨基吡啶))-9-蒽酰亚胺 (L1) 对Fe3+表现出灵敏的荧光增强响应.L1的衍生物N,N′-(2,6-吡啶基)-二(9-蒽酰亚胺) (L2)对Hg2+在紫外-可见吸收光谱和荧光光谱上显示了良好的识别性.即使在其它金属阳离子存在下,L1 和L2分别对于Fe3+和Hg2+仍然表现出较好的选择性.
参考文献
[1] | Valeur B;Leray I .Design principles of fluorescent molecular sensors for cation recognition[J].Coordination Chemistry Reviews,2000,205:3-40. |
[2] | Luca Prodi;Fabrizio Bolletta;Marco Montalti .Luminescent chemosensors for transition metal ions[J].Coordination chemistry reviews,2000(0):59-83. |
[3] | Luigi Fabbrizzi;Maurizio Licchelli;Giuliano Rabaioli .The design of luminescent sensors for anions and ionisable analytes[J].Coordination chemistry reviews,2000(0):85-108. |
[4] | Robertson A;Shinkai S .Cooperative binding in selective sensors catalyst and actuators[J].Coordination Chemistry Reviews,2000,205:157-199. |
[5] | Melinda H. Keefe;Kurt D. Benkstein;Joseph T. Hupp .Luminescent sensor molecules based on coordinated metals: a review of recent developments[J].Coordination chemistry reviews,2000(0):201-228. |
[6] | Otto S.Wolfbeis .Materials for fluorescence-based optical chemical sensors[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2005(27/28):2657-2669. |
[7] | Pulido-Tofino P. .A flow-through fluorescent sensor to determine Fe(III) and total inorganic iron[J].Talanta: The International Journal of Pure and Applied Analytical Chemistry,2000(3):537-545. |
[8] | Abbaspour A;Mehrgardi MA;Noori A;Kamyabi MA;Khalafi-Nezhad A;Rad MNS .Speciation of iron(II), iron(III) and full-range pH monitoring using paptode: A simple colorimetric method as an appropriate alternative for optodes[J].Sensors and Actuators, B. Chemical,2006(2):857-865. |
[9] | Liang, ZQ;Wang, CX;Yang, JX;Gao, HW;Tian, YP;Tao, XT;Jiang, MH .A highly selective colorimetric chemosensor for detecting the respective amounts of iron(II) and iron(III) ions in water[J].New Journal of Chemistry,2007(6):906-910. |
[10] | Yuan MJ;Li YL;Li JB;Li CH;Liu XF;Lv J;Xu JL;Liu HB;Wang S;Zhu D .A colorimetric and fluorometric dual-model assay for mercury ion by a molecule[J].Organic letters,2007(12):2313-2316. |
[11] | Martinez R;Espinosa A;Tarraga A;Molina P .New Hg2+ and CU2+ selective chromo- and fluoroionophore based on a bichromophoric azine[J].Organic letters,2005(26):5869-5872. |
[12] | Liang, ZQ;Wang, CX;Yang, JX;Gao, HW;Tian, YP;Tao, XT;Jiang, MH .A highly selective colorimetric chemosensor for detecting the respective amounts of iron(II) and iron(III) ions in water[J].New Journal of Chemistry,2007(6):906-910. |
[13] | Oter O;Ertekin K;Kirilmis C;Koca M Ahmedzade .Characterization of a newly synthesized fluorescent benzofuran derivative and usage as selective fiber optic sensor for Fe(III)[J].Sensors and Actuators B:Chemical,2007,122:450-456. |
[14] | Grabchev I;Chovelon JM;Petkov C .An iron(III) selective dendrite chelator based on polyamidoamine dendrimer modified with 4-bromo-1,8-naphthalimide[J].Spectrochimica acta, Part A. Molecular and biomolecular spectroscopy,2008(1):100-104. |
[15] | Thomas F;Serratrice G;Beguin C;Aman ES;Pierre JL;Fontecave M;Laulhere JP .Calcein as a fluorescent probe for ferric iron. Application to iron nutrition in plant cells.[J].The Journal of biological chemistry,1999(19):13375-13383. |
[16] | Grabchev I.;Chovelon JM.;Qian XH. .A polyamidoamine dendrimer with peripheral 1,8-naphthalimide groups capable of acting as a PET fluorescent sensor for metal cations[J].New Journal of Chemistry,2003(2):337-340. |
[17] | Moon S Y;Cha N R;Kim Y H;Chang S K .New Hg2+-selective chromo-and fluoroionophore based upon 8-Hydroxyquinoline[J].Journal of Organic Chemistry,2004,69:181-183. |
[18] | Moon S Y;Youn N J;Park S M;Chang S K .Diametrically disubstituted cyclam derivative having Hg2+-selective fluoroionophoric bahaviors[J].Journal of Organic Chemistry,2005,70:2394-2397. |
[19] | Chen Q Y;Chen C F .A new Hg2+-selective fluorescent sensor based on a dansyl amide-armed calyx[4]-aza-crown[J].Tetrahedron Letters,2005,46:165-168. |
[20] | Sung K G;Fu H K;Hong S H .A Fe3+/Hg2+-selective anthracene-based flrorescent PET sensor with tridentate ionophore of amide/β-amino alcohol[J].Journal of Fluorescence,2007,17:383-389. |
[21] | 赵希娟,陈勇,迟绍明,傅文甫.含有蒽酰亚胺的铜(Ⅰ)配合物的合成、结构及光谱研究[J].影像科学与光化学,2008(01):60-67. |
[22] | Benesi H A;Hildebrand J H .A spectrophotometric investigation of the interaction of iodine with aromatic hydrocarbons[J].Journal of the American Chemical Society,1949,71:2703-2707. |
[23] | Kanji Kubo;Akira Mori .PET fluoroionophores for Zn~(2+)and Cu~(2+):complexation and fluorescence behavior of anthracene derivatives having diethylamine,N-methylpiperazine and N,N-bis(2-picolyl)amine units[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2005(27/28):2902-2907. |
[24] | Yuasa J;Fukuzumi S .An off-off-on fluorescence sensors for metal ions in stepwise complex formation of 2,3,5,6-tetrakis(2-pyridyl)pyrazine with metal ions[J].Journal of the American Chemical Society,2006,128:15976-15977. |
[25] | Shortreed M;Kopelman R;Kuhn M;Hoyland B .FLUORESCENT FIBER OPTIC CALCIUM SENSOR FOR PHYSIOLOGICAL MEASUREMENTS[J].Analytical chemistry,1996(8):1414-1418. |
[26] | Ertekin K;Yenigül B;Akkaya E U .Potassium sensing by using a newly synthesized squaraine dye in sol-gel matrix[J].Journal of Fluorescence,2002,12:263-268. |
[27] | Buet P;Gersch B;Grell E .Spectral properties,cation selectivity,and dynamic efficiency of fluorescent alkali ion indicators in aqueous solution around neutral pH[J].Journal of Fluorescence,2001,11:79-87. |
[28] | 姜月顺;李铁津.光化学[M].北京:化学工业出版社,2004:5-7. |
[29] | Chou P T;Wu G R;Wei C Y;Cheng C C,Chang C P,Hung F T .Excited-state amine-imine double proton transfer in 7-azaindoline[J].Journal of Physical Chemistry B,2000,104:7818-7829. |
[30] | McClure D .Spin-orbit interaction in aromatic molecules[J].Journal of Chemical Physics,1952,20:682-686. |
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