BIBLIOGRAFÍA 1. Medrano Valenzuela F. “Síntesis de Ciclofanos

BIBLIOGRAFÍA
1. Medrano Valenzuela F. “Síntesis de Ciclofanos Quelantes Derivados de EDTA y Estudio
de su Coordinación con Metales de Transición”, Tesis Doctoral, (2002), Universidad de
Sonora. 2,88-92,118-119.
2. A.W.Czarnik, “Fluorescent Chemosensors for Ion and Molecule Recognition”, A.C.S.,
(1993)1-9.
3. Valeur B. “Principles of Fluorescent Probe Design for Ion Recognition” en Topics in
Fluorescente Spectroscopy”,Vol. :Probe Design and Chemical Sensing. Plenum Press.
E.U.A., (1994)21-48.
4. De Silva A. P., Gunaratne H. Q. N., Gunnlaugsson T., Huxley A.J.M., McCoy C.P.,
Rademacher J.T. y Rice T., “Signaling Recognition Events with Fluorescent Sensors and
Switches”, Chem. Rev., 97(1997)1515-1566.
5. Muñoz I.C., “Síntesis y Caracterización de Nuevos Ligandos Macrocíclicos de 15-, 16- y
17- Miembros con Tres Grupos Carboximetil Pendientes y sus Complejos con
Gadolinio(III)”, Tesis de Maestría, (1994)8.
6. Prodi L., Bolletta F., Montalti M. y Zaccheroni N., “Luminiscent Chemosensors for
transition metal ions” , Coord. Chem. Rev., 205(2000)59-83.
7. Inoue M.B., Medrano F., Inoue M., Raitsimring y Fernando Q., “A New Chelating
Cyclophane and its Complexation with Ni2+, Cu2+ y Zn2+: Spectroscopic Properties and
Allosterism via Ring Contraction”, Inorg. Chem., 36(1997)2335-2340.
8. Inoue M.B., Velázquez E.F., Medrano F., Ochoa, K.L., Galvez J.C., Inoue M. y Fernando
Q. “Binuclear Copper(II) Chelates of Amide-Based Cyclophanes”. Inorg. Chem.,
37(1998) 4070-75.
9. Fabbrizzi L., Francese G., Lichelli M., Pallavicini P., Perotti A., Poggi A.,Sachi D. y
Taglietti A., “ Fluorescent Chemosensors which take Profit from the Metal-Ligand
Interaction “, en Desvergne J. P. y Czarnik A.W. (editores), Chemosensors of ion and
MoleculeRecognition, Editorial Kluwer Academic Publishers. Holanda, (1997)75-90.
10. Valeur B. y Leary I. “Design Principles of Fluorescent Molecular Sensors for Cation
Recognition”. Coord. Chem. Rev., 205(2000)3-40.
11. Sancenon F., Descalzo A. B., Lloris M., Martínez –Manez R., Pardo T., Segui M. J. y
Soto J., “ Open-Chain Poliazaalkanes Functionalised with Pyrene Groups as sensing
Fluorogenic Receptors for Metal Ions”, Polyhedron, 21(2002)14-15, 1397-1404.
12. Lakowicz J.R., “Principles of Fluorescence Spectroscopy”, Editorial Plenum Press,
E.U.A., Chap. 3(1983)33-36.
13. Zolotov Y.A., “Macrocyclic compounds in Analitical Chemistry”, Editorial Jhon Wiley &
Sons Inc., E.U.A., (1997)130-132.
14. Lehn J.M., “Supramolecular Chemistry. Concepts and Perspectives”, Editorial VCH,
Alemania, (1995)1-5.
15. Streitwieser A. y Heatcok C.H., “Química Orgánica”, Editorial Mc Graw-Hill, México, 3a
edición, (1989)248-249.
16. Inoue M.B., Villegas C.A., Asano K., Nakamura M., Inoue M. y Fernando Q. , “New 12Membered and 24-Membered Macrocycles with Pendent Acetato Groups and X-ray
Crystal Structures of the Cupper(II) and Manganese(II) Complexes”, Inorg. Chem.,
31(1992)2480-2483.
17. Inoue M.B., Fernando Q., Villegas C. A. y Inoue M., “Structure of a Lead(II) Complex of
a New 13-Membered Microcycle with Two Pendant Carboxymethyl Groups”, Acta
Cryst., C49(1993)875-878.
18. Inoue M. B., Navarro R.E., Inoue M. y Fernando Q. “Manganese(II) and Gadolinium(III)
Complexes with New 13- and 16-Membered Dioxopolyazacycloalcanes Having Pendant
Hydroxy and Carboxymethyl Groups”, Inorg. Chem., 34(1995)6074-6079.
19. Inoue B. M., Oram P., Andreu-de-Riquer G., Inoue M., Borbat P., Raitsimring A. y
Fernando Q. “Transition Metal Complexes of 12- and 13-Membered Functionalized
Macrocycles, Dioxotetraazacycloalkanediacetates”, Inorg. Chem., 34 (13) (1995)35283535.
20. Diederich F., “Cyclophanes”, Editorial The Royal Society of Chemistry”, Great Britain,
Chap. I.(1991)1-46.
21. Odashima K. y Koga K., “Cyclophanes in Host-Guest Chemistry” en “Cyclophanes, Vol.
II” Editorial Academic Press Inc., (1983)629-677.
22. Izatt Reed M., Pawlak K. y Bradshaw J.S., “ Thermodynamic and Kinetic Data for
Macrocycle Interaction with Cations, Anions and Neutral Molecules”, Chem. Rev.,
95(1995)2529-2586.
23. Inoue M.B., Medrano F., Inoue M. y Fernando Q. “Amide Based [12]-, [12.12]- and
[12.12.12.12]paracyclophanes: non-planarity of amide and phenyl groups in the
[12]cyclophane”, J. Chem. Soc. Perkin Trans. 2, (1998)2275-79.
24. Inoue M. B., Velázquez E. F., Inoue M. y Fernando Q. “Molecular Recognition of
Phenetylamine, Tyramine and Dopamine with new Anionic Cyclophanes in Aqueous
Media”. J. Chem. Soc. Perkins Trans. 2, (1997)2113-2118.
25. Inoue M.B., Machi L., Muñoz I.C., Rojas-Rivas S., Inoue M. y Fernando Q. “Metal
Ligand Interactions in Benzodioxotetraaza-Macrocyclic Metal Quilates”, Inorg. Chim.
Acta., 324(2001)73-80.
26. Cram D. J., Allinger N.L., y Steinberg H., “Macrorings. VII. The Spectral Consequences
of Bringing Two Benzene Rings Face to Face”, J. Am. Chem. Soc., American Chemical
Society, 76(1954)6132-6141.
27. Rojas-Rivas
J.S.,
“Estudio
espectróscópico
de
Ligantes
Macrocíclicos
Benzodioxotetraaza y sus Complejos de Cu(II), Ni(II) y Zn(II)”, Tesis de
Maestría,Universidad de Sonora, (2005)38-42, 67-70.
28. Valeur B. y Badaoui F., “Cation responsive fluorescent sensor” en Chemosensor of ion
and Molecule Recognition, Editores W. Czarnik y J. Desverge, (1997)195-220.
29. Fabbrizzi L., Licchelli M., Parodi L., Poggi A. y Taglietti A., “A versatile Fluorescent
System for Sensing of H+, Transition Metals, and Aromatic Carboxylates”, Eur. J. Inorg.
Chem., (1999)35-39.
30. Guilbault G.G., “Practical Fluorescence”, Editorial Marcel-Dekker, E.U.A., Chap.
3(1990)75.
31. Rurack K., “Flipping the Light Switch On- the Design of Sensor Molecules that Show
Cation-Induced Fluorescence Enhacement with Heavy and Transition Metal Ions”,
Spectrochimica Acta Part A, 57(2001)2161-2195.
32. Inoue M.B., Oram P., Inoue M. y Fernando Q., “Solution 1H NMR and X-ray Crystal
Structures of Ca2+, Zn2+ and Cd2+ complexes with 12- and 13-Membered Macrocycles,
dioxotetraazacycloalkanediacetic acids”, Inorg. Chim. Acta, 246(1996)401-412.
33. Birks J.B., “Photophysics of Aromatic Molecules”, Editorial Wiley-Interscience, Great
Britain, (1970)84.
34. Skoog D.A., Leary J.J. “Análisis Intstrumental”, 4a edición, Editorial McGraw-Hill,
España, (1994)170-226.
35. Inoue M. B., Velázquez E. F., Ruiz-Lucero A., Inoue M., Raitsimring A. y Fernando Q.
“Binuclear Copper(II) Quelates with a 24-Membered Amide-Based Macrocycle”, Inorg.
Chem. 38(1999)834.
36. Figgis B.N. y Hitchman M.A., “Ligand Field Theory and its Applications, Wiley-VCH,
E.U.A:(2000)84.
37. Acevedo H., Vazquez F., Willoud R. y Martínez L., “Determinación de Cadmio en Agua
Potable por ICP-AES y Preconcentración en Flujo Contínuo Utilizando una Resina
Amberlita XAD-16. Comunicaciones Científicas y Tecnológicas. Universidad Nacional
del Noroeste. Argentina, (2000)1-3.
38. Kim S., Lee J., y Yoon J., “Fluorescent PET Chemosensor for Cadmium Ions in 100%
Aqueous Solution., Bull. Korean Chem. Soc. 24(2003)1032-34.
39. Bargossi C., Fiorini M.C., Montalt M., Prodi L. y Zacceroni N.,”Recent Developments in
Transition Metal Ion Detection by Luminiscent Chemosensor”, Coordination Chemistry
Reviews, 208(2000)17-32.
40. Fabbrizzii L., Lichelli M., Pallavicini P., Peroti A. y Sacchi D., “An Anthracene-Based
Fluorescent Sensor for Transition Metal Ions”, Angew. Chem. Int., Editorial Engl., 33,
19(1994)1975-1977.
41. Fabbrizzii L., Lichelli M., Pallavicini P., Sacchi D. y Taglietti A., “Sensisng of Transition
Metals Trough Fluorescence Quenching or Enhancement”, The Analyst, 121(1996)17631768.
42. Prodi L., Ballardini R., Gandolfi M.T., y Roversi R., “ A Simple Fluorescent
Chemosensor for Alkaline-earth Metal Ions”, J. Photochemistry and Photobiology A:
Chem., 136(2000)49-52.
43. Czarnik, A.W., “Fluorescent Chemosensors for Ion and Molecule Recognition”, Chapter
1 in Supramolecular Chemistry, Fluorescence and Sensing, Am. Chem. Soc., (1993)1-9.
44. De Silva A. P., Gunaratne H. Q. N., Gunnlaugsson T., Huxley A.J.M., McCoy C.P.,
Rademacher J.T. y Rice T., “Signaling Recognition Events with Fluorescent Sensors and
Switches”, Chem. Rev., 97(1997)1515-1566.
45. Fabbrizzii L. y Poggi A., “Sensors and Switches from Supramolecular Chemistry”, Chem.
Soc. Rev., (1995)197-202.
46. Winnik F. M., “Photophysics of Preassociated Pyrenes in Aqueous Polyner Solutions and
in other Organized Media”, Chem. Rev, 93(1993)587-614.
47. Susuki Y., Morozumi T., Hiroshi N., Shimomura M., Hayashita T. y Bartsh R. A., “New
Fluorimetric Alkali and Alkaline Earth Metal Cation Senaors Based on Noncyclic Crown
Ethers by Means af Intramolecular Excimer Formation of Pyrene”, J. Phys Chem B,
102(1998)7910-7917.
48. Hitoshi N., Satozono H., Koiso K., Yoshida H., Ishida J. y Yamaguchi M. “Higly
Selective Fluorometric Determination of Polyamines Based on Intramolecular excimerForming Derivatization with a Pyrene-labeling Reagent”, Anal. Chem., 72(2000)41994204.
49. Yang J.S., Lin C. S. y Hwang C.Y., “Cu2+-Induced Blue Shift of the pyrene Excimer
Emission: A New Signal Transduction Mode of Pyrene Probes”, Organic Letters,
3,6(2001)889-892.
50. Sancenon F., Descalzo A.B., Lloris J. M., Martínez-Mañez R., Pardo T., Segui M. J., y
Soto J., “Open-Chain Polyazaalkanes Functionalised with Pyrene Groups as Sensing
Fluorogenic Receptors for Metal Ions”, Polihedron, 21(2002)14-15,1397-1404
51. Bidhan C. Roy, Chandra B., Hromas D., y Mallik S., “Synthesis of New, PyreneContaining Lipids and Sensing of Cupric Ions”, Organic Letters, Vol. 5(2003)11-14.
52. Konings M.S., Dow W. C., Love D.B., Raymonf K. N., Quay S. C. y Rocklage S. M.,
Gadolinium Complexation by a New Diethylenetriaminepentaacetic Acid-Amide Ligand.
Amide Oxygen Coordination. Inorg. Chem., 29(1990)1488-1491.
53. L fabrizzi y Poggi A., Transition Metals in Supramolecular Chemistry. Kluwer Academic
Publisher, First Edition, Dordrecht, Paises Bajos, (1994) 94-120.
54. Herrera-Valenzuela Karla Y. “Síntesis de un Nuevo Ligante Dioxotetraamina de Cadena
Abierta Derivado del 1-Aminopireno y estudio Espectroscópico de sus Complejos
Metálicos en Solución”, Tesis de Licenciatura, Universidad de Sonora, (2003)79-87.
55. Bernhardt P., Moore E.G. y Riley M.J., “Intramolecular Electronic Energy Transfer in
Bichomophoric Macrocyclic”, Inorg. Chem. 41(2002)3025-3031.
56. Winnik M. A.,Bystryak S.M. y Lin Z. “Síntesis and characterization of Pyrene-Labeled
Poly(ethylenimine), Macromolecules, 31(1998)31(20)6855-6864.
57. B.Valeur Molecular Fluorescence “Principles and applications” Wiley-VCH Germany.
(2002)235.
58. Achour B., Costa J., Delgado R., Garrigues E., Geraldes C. F. G. C., Sorber N., Nepveu
F. y Prata I., “Triethylenetetramine-N,N,N´,N´´,N´´´,N´´´´-hexaacetic Acid (TTHA) and
TTHA-Bis(butanamide) as Chelating Agents Relevant to Radiopharmaceutical
Applications”, Inorg. Chem., 37(1998)2729-2740.
59. Fabbrizzi L., Licchelli M., Pallavicini P., Parodi L. y Taglietti A. Chapter 3 en Transition
Metals in Supramolecular Chemistry, editado por Sauvage J.P., John Wiley & Sons. Ltd.,
(1999)94-133.