Реакционная способность полифункциональных (гибридных) антиоксидантов
7 - 14 февраля 2012 г. - В Центральной библиотеке НЦЧ РАН.КНИГИ
1. Antioxidants and reactive oxygen species in plants / Ed. by N.Smirnoff. -Oxford: Blackwell, 2005.-XIII, 302 p.
2. Antioxidants and reactive oxygen species in plants : Papers submitted by contributors to the Antioxidants a. reactive oxygen species in plants Sess. at the Annu. meet. of the Soc. for experimental biology, Univ. of Kent, Canterbury, 2-3 Apr. 2001 / Ed.: Smirnoff Nicholas . -Oxford : Oxford univ. press, 2002.-IV, p.1227-1376. (J. of experimental botany, ISSN 0022-0957; Vol. 53, nr 372, spec. iss. ). I. Society for experimental biology (Cambridge). Meeting (2001; Canterbury, Kent).
3. Denisov Evgenij Timofeevic, Denisova Taissa Grigor'evna. Handbook of antioxidants : Bond dissociation energies, rate constants, activation energies a. enthalpies of reactions / Denisov Evguenii T., Denisova Taissa G.-2d ed. -Boca Raton (Fla) etc. : CRC press, Cop. 2000.-289 p.
4. Denisov E.T., Afanas'ev I.B. Oxidation and antioxidants in organic chemistry and biology. -Denisov Evgeny T., Afanas'ev Igor B. - Boca Raton (FL) : Taylor and Francis, 2005.-xxxiii, 981 p.
5. Kondyurin Alexey. Ion beam treatment of polymers : application aspects from medicine to space / Kondyurin Alexey a. Bilek Marcela . -Amsterdam [etc.] : Elsevier, 2008.-VIII, 317 p.
6. Redox signaling and regulation in biology and medicine / ed. by Jacob Claus a. Winyard Paul G. -Weinheim : Wiley-VCH, cop. 2009.-XXXIII, 481 c.
ЖУРНАЛЫ
1. Паршина Е.Ю., Гендель Л.Я., Рубин А.Б. Влияние новых гибридных антиоксидантов - ихфанов - на морфологию эритроцитов. -Биофизика.-2004 г.-т. 49, N 6, с.1094-1098.
2. Лунева О.Г., Гендель Л.Я., Кузнецов Ю.В. и др. Особенности взаимодействия неэлектролитов - производных 5-гидроксибензимидазола с эритроцитарной мембраной. -Биофизика. -2005.-Т.50, N 2, с.310-315.
3. Паршина Е.Ю., Гендель Л.Я., Рубин А.Б. Влияние новых гибридных антиоксидантов - ихфанов -на кинетику вскорбат-индуцированного восстановления радикальных центров спиновых зондов в липосомах. -Биофизика.-2005 г.-т. 50, N 4,с. 676-679.
4. Gundogdu A., Duran C., Senturk H.B. et al. Simultaneous preconcentration of trace metals in environmental samples using amberlite XAD-2010/8-hydroxyquinoline system. -Acta Chimica Slovenica.-2007.-Vol. 54, N 2, p.308-316.
5. Qingcui Chu, Lianmei Jiang, Xiuhui Tian, Jiannong Ye. Rapid determination of acetaminophen and p-aminophenol in pharmaceutical formulations using miniaturized capillary electrophoresis with amperometric detection. -Analytica Chimica Acta.-2008.-Vol. 606, N 2, p. 246-251.
6. Tao T., Pan D., Liu Y. et al. An amperometric hydrogen peroxide sensor based on immobilization of hemoglobin in poly(o-aminophenol) film at iron-cobalt hexacyanoferrate-modified gold electrode. -Analytical Biochemistry.- 2005.-Vol. 338, N 2, p.332-340.
7. Das J., Jo K., Lee J.W., and Yang H. Electrochemical immunosensor using p-aminophenol redox cycling by hydrazine combined with a low Background Current. -Analytical Chemistry.-2007.-Vol. 79, N 7, p.2790-2796.
8. Oklejas V., Uibel R.H., Horton R., and Harris J.M. Electric-field control of the tautomerization and metal ion binding reactivity of 8-hydroxyquinoline Immobilized to an Electrode Surface. -Analytical Chemistry.-2008.Vol. 80, N 6, p.1891-1901.
9. Xu B., Chen L., Liu X. et al. Mixed ligands 8-hydroxyquinoline aluminum complex with high electron mobility for organic light-emitting diodes. -Applied Physics Letters.-2008.-Vol. 92, N 10, p.103305.
10. Xiong T., Wang F., Qiao X., and Ma D. Cesium hydroxide doped tris-(8-hydroxyquinoline) aluminum as an effective electron injection layer in inverted bottom-emission organic light emitting diodes. -Applied Physics Letters.-2008.-Vol. 92, N 26, p.263305.
11. Su Z., Li W., Chu B. et al. High response organic ultraviolet photodetector based on blend of 4,4 ', 4 ''-tri-(2-methylphenyl phenylamino) triphenylaine and tris-(8-hydroxyquinoline) gallium. -Applied Physics Letters.-2008.Vol. 93, N 10, p.103309.
12. Xin L., Li C., Li F. et al. Inversion of magnetic field effects on electrical current and electroluminescence in tri-(8-hydroxyquinoline)-aluminum based light-emitting diodes. -Applied Physics Letters. -2009.Vol. 95, N 12, p.123306.
13. Park Y.W., Kim Y.M., Choi J.W. et al. Highly efficient tris(8-hydroxyquinoline) aluminum-based organic light-emitting diodes utilized by balanced energy transfer with cosensitizing fluorescent dyes. -Applied Physics Letters.-2009.-Vol. 95, N 14, p.143305.
14. Chen P., Lei Y.L., Song Q. L. et al. Control of magnetoconductance through modifying the amount of dissociated excited states in tris-(8-hydroxyquinoline) aluminum-based organic light-emitting diodes. -Applied Physics Letters.-2010.-Vol. 96, N 20, p.203303.
15. Wang F., Pang Z., Lin L. et al. Magnetism in Co-doped tris-8-hydroxyquinoline aluminum studied by first-principles calculations. -Applied Physics Letters.-2010.Vol. 96, N 5, p.053304.
16. Yesilagac R., Unak P., Medine E.I. et al. Enzymatic synthesis of (125/131)I labeled 8-hydroxyquinoline glucuronide and in vitro/in vivo evaluation of biological influence. -Applied Radiation and Isotopes.-2011.Vol. 69, N 2,р.299-307.
17. Nedosekin D.A., Brusnichkin A.V., Luk'yanov A.Y. et al. Heterogeneous Thermal-Lens Immunoassay for Small Organic Compounds: Determination of 4-Aminophenol. -Applied Spectroscopy.-2010.-Vol. 64, N 8, p.942-948.
18. Senda N., Momotake A., Arai T. Fluorescence Enhancement in 7-Hydroxyquinoline Analogs by Methyl Substitution and Their Spectroscopic characteristics in aqueous solution. -Bulletin of the Chemical Society of Japan.-2010.-Vol. 83, N 10, р.1272-1274.
19. Bunsen discussion on competitive processes in vibrationally highly exited molecules (2000; Goettingen). Including a special issue from the Bunsen... - Cambridge : Roy. soc. of chemistry, 2001. - V, c. 2191-2553 : ил., табл. - (Phys. chemistry. Chem. physics, ISSN 1463-9076; Vol. 3, nr 12 ).
20. Gomes J.R.B., Da Silva M.A.V.R. A computational study on the enhanced stabilization of aminophenol derivatives by internal hydrogen bonding. -Chemical Physics.-2006.-Vol. 324, N 2-3, р. 600-608.
21. Da Silva G., Chen C.-C., Bozzelli J.W. Bond dissociation energy of the phenol O-H bond from ab initio calculations. -Chemical Physics Letters.-2006.-Vol. 424, N 1,р.42-45.
22. Mehata M.S. Photoinduced excited state proton rearrangement of 6-hydroxyquinoline along a hydrogen-bonded acetic acid wire. -Chemical Physics Letters.-2007. Vol. 436, N 4-6, р.357-361.
23. Harati M., Amiralaei S., Green J., Wang J. Chemical oscillations in the 4-aminophenol-bromate photoreaction. - Chemical Physics Letters. -2007.Vol. 439, N 4-6, р.337-341.
24. Ogawa N., Miyata A., Tamaru H. et al. Femtosecond depolarization dynamics of tris(8-hydroxyquinoline) aluminum films. -Chemical Physics Letters.-2008.Vol. 450, N 4-6, p.335-339.
25. Garcia-Belmonte G., Bisquert J., Bueno P.R., Graeff C.F.O. Impedance of carrier injection at the metal-organic interface mediated by surface states in electron. -Chemical Physics Letters.-2008.Vol. 455, N 4-6, p.242-248.
26. Mehata M.S., Iimori T., Ohta N. Electric-field-induced changes in fluorescence decay and spectrum of tris(8-hydroxyquinoline)aluminum in a polymer film. -Chemical Physics Letters.-2008.Vol. 457, N 1-3, p.62-65.
27. Nishiyama Y., Fukushima T., Takami K. et al. Characterization of local structures in amorphous and crystalline tris(8-hydroxyquinoline) aluminum(III) (Alq3) by solid-state 27Al MQMAS NMR spectroscopy. -Chemical Physics Letters.-2009.Vol. 471, N 1-3, p.80-84.
28. Le Bahers T., Adamo C., Ciofini I. Theoretical determination of the pK(a)s of the 8-hydroxyquinoline-5-sulfonic acid: A DFT based approach. -Chemical Physics Letters.-2009.-Vol. 472, N 1-3, p.30-34.
29. Ding H., Park K., Gao Y. et al. Electronic structure and interactions of LiF doped tris (8-hydroxyquinoline) aluminum (Alq). -Chemical Physics Letters.-2009.Vol. 473, N 1-3, p.92-95.
30. Harati M. Chemical wave in the un-illuminated aminophenol-bromate beads system. -Chemical Physics Letters.-2009.-Vol. 477, N 1-3, p.126-129.
31. Sekine M., Nagai Y., Sekiya H., Nakata M. Electronic absorption spectra of photoreaction intermediates of 7-hydroxyquinoline monomer in a low-temperature argon matrix and time-dependent density-functional-theory calculations. -Chemical Physics Letters.-2010.-Vol. 490, N 1-3,p.46-49.
32. Muraki N., Yoshikawa M. Characterization of the interface between metal and tris (8-hydroxyquinoline) aluminum using surface-enhanced Raman scattering with glass cap encapsulation. -Chemical Physics Letters.-2010.-Vol. 496, N 1-3, p.91-94.
33. Jiao L., Meng T., Chen Y. et al. Triazolyl-linked 8-Hydroxyquinoline Dimer as a Selective Turn-on Fluorosensor for Cd(2+). -Chemistry Letters.-2010.-Vol. 39, N 8, p.803-805.
34. Mohtat B., Djan-haniani H., Yavari I. et al. Synthesis of 4H-chromene derivatives by reaction between alkyl isocyanides and dialkyl acetylenedicarboxylate in the presence of 6-hydoxyquinoline. -Chinese Chemical Letters.-2011.-Vol. 22, N 7, p.771-773.
35. Guo Y., Wang Z.-B., Cui Y.-P. et al. Tris (8-Hydroxyquinoline) Aluminium Nanostructure Film and Its Fluorescence Properties. -Chinese Physics Letters.-2008.-Vol. 25, N 12, p.4428-4430.
36. Vijayan N., Bhagavannarayana G., Maurya K.K. et al. Studies on the structural, thermal and optical behaviour of solution grown organic NLO material: 8-hydroxyquinoline. -Crystal Research and Technology.-2007.-Vol. 42, N 2, р.195-200.
37. Hong K., Kim S.Y., Kim W.-K., Lee J.-L. Enhancement of electron injection in flexible OLEDs using magnesium-doped tris(8-hydroxyquinoline) aluminum. -Electrochemical and Solid-State Letters.-2007.-Vol. 10, N 3, р.Н85-H87.
38. Yin H., Ma Q., Zhou Y. et al. Electrochemical behavior and voltammetric determination of 4-aminophenol based on graphene-chitosan composite film modified glassy carbon electrode. -Electrochimica Acta.-2010.-Vol. 55, N 23, р.7102-7108.
39. Environmental and nutritional interactions section. [Pt] 1. -Toxicology.-2000.-Vol. 148, N 2-3, p. 81-207.
40. Ding S., Xu D., Li B. et al. Improvement of (31)P NMR Spectral Resolution by 8-Hydroxyquinoline Precipitation of Paramagnetic Fe and Mn in Environmental Samples. -Environmental Science and Technology.-2010.-Vol. 44, N 7, p.2555-2561.
41. Deraeve C., Maraval A., Vendier L. et al. Preparation of New Bis(8-aminoquinoline) Ligands and Comparison with Bis(8-hydroxyquinoline) Ligands on Their Ability to Chelate CuII and Zn II. -European Journal of Inorganic Chemistry.-2008.-N 36, p.5622-5631.
42. Brandel J., Torelli S., Gellon G. et al. From Molecular to Nanostructured Iron Complexes of Amphiphilic Chelators Based on 8-Hydroxyquinoline Subunits - Evidence of Self-Assembled Edifices Mimicking Siderophores from Marine Bacteria. -European Journal of Inorganic Chemistry.-2009.-N 1, р.86-92.
43. Issenhuth J.-T., Plivinage J., Welter R. et al. Novel Neutral and Cationic Aluminium Alkyl Complexes Supported by Potentially Tridentate O,N,L-Type Aminophenolate Ligands and Their Use in Propylene oxide Polymerization. -European Journal of Inorganic Chemistry.-2009.- N 31, p.4701-4709.
44. Shakya R., Powell D.R., Houser R.P. Unsupported mu-Oxo- and mu-Hydroxo-Iron(III) Dimers and Mononuclear Iron(III) Complexes with Pyridylbis(aminophenol) Ligands. -European Journal of Inorganic Chemistry.-2009.-N 35, p.5319-5327.
45. Deacon G.B., Forsyth C.M., Junk P.C., Urbatsch A. Syntheses at Elevated Temperature and Structures of Lanthanoid/Alkaline Earth Heterobimetallic Derivatives of 2-Methyl-8-hydroxyquinoline. -European Journal of Inorganic Chemistry.-2010.-N 18, p.2787-2797.
46. Albrecht M., Osetska O. Ditopic 8-Hydroxyquinoline-2-carboxamides as Ligands for the Formation of Dinuclear Lanthanide(III) helicates. -European Journal of Inorganic Chemistry.-2010.-N 29, p.4678-4682.
47. Ziegler E., Haberhauer G. Controlling the Helicity of Hydroxyquinoline Metal Complexes Based on a Macrocyclic Peptide Scaffold. -European Journal of Organic Chemistry.-2009. N 20, p.3432-3438.
48. Vittorino E., Sortino S. A Phenolic Antioxidant Releasing Nitric Oxide on Demand. -European Journal of Organic Chemistry.-2010.-N 3, p.421-426.
49. Li Y., Wang H., Jiang L. et al. Copper-Catalyzed Direct Synthesis of Di- and Triphenylamines: A Dramatic Accelerating Effect of 2-Aminophenols. -European Journal of Organic Chemistry.-2010.-N 36, р.6967-6973.
50. Krishnakumar V., Prasad L.G., Nagalakshmi R. Investigation on 3-aminophenol: a nonlinear optical crystal for frequency doubling. -European Physical Journal - Applied Physics.-2009.-Vol. 48, N 2, p. art 20403.
51. Bardaoui A., Bchir R., Hamzaoui H., Chtourou R. Porous silicon optical microcavity for chemical sensing application using tris-(8-hydroxyquinoline) aluminum (Alq3). -European Physical Journal - Applied Physics.-2010.Vol. 51, N 3, стр. 30701.
52. Carrell T.G., Bourles E., Lin M., Dismukes G.C. Transition from Hydrogen Atom to Hydride Abstraction by Mn4O4(O2PPh2)6 versus [Mn4O4(O2PPh2)6]+: O - H Bond Dissociation Energies and the Formation of Mn4O3(OH)(O2PPh2)6. -Inorganic Chemistry.-2003.-Vol. 42, N 9, p.2849-2858.
53. Vaswani K.G., Keranen M.D. Detection of Aqueous Mercuric Ion with a Structurally Simple 8-Hydroxyquinoline Derived ON-OFF Fluorosensor. -Inorganic Chemistry.-2009.-Vol. 48, N 13, p. 5797-5800.
54. Ohshima R., Kitamura M., Morita A. et al. Design and Synthesis of a Fluorescent Probe for Zn2+, 5,7-Bis(N,N-dimethylaminosulfonyl)-8-hydroxyquinoline-Pendant 1,4,7,10-Tetraazacyclododecane and Zn2+-Dependent Hydrolytic and Zn2+-Independent Photochemical Reactivation of Its Benzenesulfonyl-Caged Derivative. -Inorganic Chemistry.-2010.Vol. 49, N 3, p.888-899.
55. Whiteoak C.J., de Rosales R.T.M., White A.J.P., Britovsek G.J.P. Iron(II) Complexes with Tetradentate Bis(aminophenolate) Ligands: Synthesis and Characterization, Solution Behavior, and Reactivity with O2. -Inorganic Chemistry.2010.-49, N 23, p.11106-11117.
56. Wickleder C., Henseler D., Leutwyler S. Accurate dissociation energies of O-H center dot center dot center dot O hydrogen-bonded 1-naphthol-solvent complexes. -Journal of Chemical Physics.-2002.-Vol. 116, N 5, p.1850-1857.
57. Gerhards M., Jansen A., Unterberg C., Gerlach A. Structures and rearrangement reactions of 4-aminophenol(H2O)(1)(+) and 3-aminophenol(H2O)(1)(+) clusters. -Journal of Chemical Physics.-2005.Vol. 123, N 7, p.074320.
58. Tewari B.B., Boodhoo M. Removal of p-aminophenol and p-nitrophenol from aqueous solution through adsorption on antimony, cadmium, and zirconium ferrocyanides. -Journal of Colloid and Interface Science.-2005.-Vol. 289, N 2, p.328-332.
59. Kuroda K., Ishida T., Haruta M. Reduction of 4-nitrophenol to 4-aminophenol over Au nanoparticles deposited on PMMA. -Journal of Molecular Catalysis. A. Chemical.-2009.-Vol. 298, N 1-2, p.7-11.
60. Kim M., Kim S.-S., Kang H., Park Y.D. REMPI and IR-UV double resonance spectroscopy of 3-aminophenol center dot(NH(3))(1) cluster in the gas phase. -Journal of Molecular Spectroscopy.-2010.-Vol. 263, N 1, p. 51-55.
61. Buyukmurat Y., Akyuz S. Infrared and Raman spectra, ab initio calculations, force field refinement and vibrational assignment of 3-aminophenol. -Journal of Molecular Structure.-2005.-Vol. 744-747, p.921-928.
62. Billone P.S., Johnson P.A., Lin S. et al. Accurate O-H Bond Dissociation Energy Differences of Hydroxylamines Determined by EPR Spectroscopy: Computational Insight into Stereoelectronic Effects on BDEs and EPR Spectral Parameters. -Journal of Organic Chemistry.-2011.-Vol. 76, N 2, p.631-636.
63. Zaitsev K.V., Oprunenko Yu.F., Churakov A.V. et al. Titanium (IV) complexes based on substituted 2-[(2-hydroxyethyl)]aminophenols. -Journal of Organometallic Chemistry.-2008.Vol. 693, N 1, p.173-179.
64. Koshino N., Cai Y., Espenson J.H. Kinetic study of the phthalimide N-oxyl (PINO) radical in acetic acid. Hydrogen abstraction from C-H Bonds and Evaluation of O?H Bond Dissociation Energy of N-Hydroxyphthalimide. -Journal of Physical Chemistry.A.-2003.-Vol. 107, N 21,p.4262-4267.
65. Espinosa-Garcia J., Gutierrez-Merino C. The trapping of the OH radical by coenzyme Q. A theoretical and experimental study. -Journal of Physical Chemistry.A.-2003.Vol. 107, N 45,p.9712-9723.
66. Navarrete M., Rangel C., Corchado J.C., Espinosa-Garcia J. Trapping of the OH radical by alpha-tocopherol: A theoretical study. -Journal of Physical Chemistry.A.-2005.-Vol. 109, N 21, p. 4777-4784.
67. Matta G.F., Arabi A.A., Keith T.A. Atomic partitioning of the dissociation energy of the P-O(H) bond in hydrogen phosphate anion (HPO42-): Disentangling the Effect of Mg2+. -Journal of Physical Chemistry.A.-2007.Vol. 111, N 36, p.8864-8872.
68. Gupta R., MacBeth C.E., Young, V.G. Jr., Borovik A.S. Isolation of monomeric Mn-III/II-OH and Mn-III-O complexes from water: Evaluation of O-H bond dissociation Energies. -Journal of the American Chemical Society.-2002.Vol. 124, N 7, p.1136-1137.
69. Renneberg R., Dervan P.B. Imidazopyridine/pyrrole and hydroxybenzimidazole/pyrrole pairs for DNA minor groove recognition. -Journal of the American Chemical Society.-2003.Vol. 125, N 19, p.5707-5716.
70. Gupta R., Borovik A.S. Monomeric Mn-III/II and Fe-III/II complexes with terminal hydroxo and oxo ligands: Probing reactivity via O?H Bond Dissociation Energies. -Journal of the American Chemical Society.-2003.-Vol. 125, N 43, p.13234-13242.