Синтез и исследование краунсодержащих полигетероциклических производных (1105711), страница 28
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Photoresponsive dendron-like metallocomplexes of the crown-containing styryl derivativesof 2,2′-bipyridine. // Dalton Transactions. – 2014. – Vol. 43. – № 2. – P. 769-778.140.Tulyakova E.V., Fedorova O.A., Fedorov Yu.V., Jonusauskas G., Kuz'mina L.G.,Howard J.A.K., Anisimov A.V. Synthesis, complexation, and E—Z photoisomerization ofazadithiacrown-containing styryl dyes as new optical sensors for mercury cations // RussianChemical Bulletin, International Edition. – 2007.
– Vol. 56. – № 3. – P. 513-526.141.Chen Y., Fan B., Lu N., Li R. Aluminium metal-organic framework as a new host forpreparation of encapsulated metal complex catalysts // Catalysis Communications. – 2015. – Vol.64. – P. 91-95.142.Molphy Z., Prisecaru A., Slator C., Barron N., McCann M., Colleran J., Chandran D.,Gathergood N., Kellett A. Copper phenanthrene oxidative chemical nucleases // InorganicChemistry.
– 2014. – Vol. 53. – № 10. – P. 5392-5404.143.Schilstra M.J., Birker W.L., Verschoor G.C., Reedijk J. Copper(I) and copper(II)compounds of 1,7-bis(2-benzimidazolyl)-2,6-dithiaheptane (BBDHp). X-ray structure of linearlycoordinated copper(I) in the cation [CuI(BBDHp)]+ // Inorganic Chemistry. – 1982. – Vol.
21. –№ 7. – P. 2637-2644.144.Olmstead M.M., Musker W.K., Kessler R.M. Crystal structures and properties of bis(2,5-dithiahexane)copper(I) and copper(II) and mixed-valence complexes. Comparison of tetrahedraland distorted octahedral geometries of thioether-coordinated copper(II) // Inorganic Chemistry. –1981. – Vol. 20. – № 1.
– P. 151-157.145.Birker W.L., Helder J., Henkel G., Krebs B., Reedijk J. Synthesis and spectroscopiccharacterization of copper(I) and copper(II) complexes with 1,6-bis(2-benzimidazolyl)-2,5dithiahexane(BBDH).X-raystructureoftrigonal-bipyramidalcoordinated[Cu(BBDH)Cl]Cl2C2H5OH // Inorganic Chemistry.
– 1982. – Vol. 21. – № 1. – P. 357-363.170146.Nanda K.K., Addison A.W., Butcher R.J., McDevitt M.R., Rao T.N., Sinn E. Structuraldemonstration of the role of ligand framework conformability in copper(II)/copper(I) redoxpotentials // Inorganic Chemistry. – 1997. – Vol. 36.
– № 2. – P. 134-135.147.Malachowski M.M., Adams M., Elia N., Rheingold A.L., Kelly R.S. Enforcinggeometrical constraints on metal complexes using biphenyl-based ligands: spontaneous reductionof copper(II) by sulfur-containing ligands// Journal of the Chemical Society, DaltonTransactions. – 1999. – № 13. – P. 2177-2182.148.Benzekri A., Cartier С., Latour J.-M., Limosin D., Rey P., Verdaguer M. Structural andelectrochemical studies of dicopper complexes of a binucleating ligand involving sulfides andbenzimidazoles // Inorganica Chimica Acta. – 1996.
– Vol. 252. – № 1-2. – P. 413-420.149.Nickless D.E., Powers M.J., Urbach F.L. Copper(II) complexes with tetradentatebis(pyridyl)-dithioether and bis(pyridyl)-diamine ligands. Effect of thio ether donors on theelectronic absorption spectra, redox behavior, and EPR parameters of copper(II) complexes //Inorganic Chemistry. – 1983. – Vol. 22. – № 22.
– P. 3210-3217.150.Latour J.M., Limosin D., Rey P. Dicopper complexes of a new binucleating ligandinvolving sulphides and benzimidazoles // Journal of the Chemical Society, ChemicalCommunications. – 1985. – № 8. – P. 464-466.151.Verheijdt P.I., Hassnoot J.G., Reedijk J. Photo-induced reduction of Cu(II)-benzimidazolylthioether chelates.
The formation of 1,6-bis(N-methylbenzimidazol-2-yl)-2,5dithiahexane copper(I) perchlorate from the corresponding copper(II) compound by photoinduced reduction in dimethylformamide // Inorganica Chimica Acta. – 1983. – Vol. 76. – P.L43-L46.152.Mandal S.K., Woon T.C., Tompson L.K., Newlands M.J., Gage E.J. Binuclear copper(II)complexes of some tetradentate pyridyl phthalazine ligands. Structure, electrochemistry andmagnetism – Crystal-structure of aqua-µ-[1,4-di-(4',6'-dimethylpyridin-2'-ylamino)-phthalazineN1',µ-N2,µ-N3,N1'']-µ-hydroxo-dinitratodicopper(II) nitrate // Australian Journal of Chemistry.– 1986.
– Vol. 39. – № 7. – P. 1007-1021.153.Kitagawa S., Munakata M., Higashie A. Autoreduction of copper(II) complexes of 6,6’-dialkyl-2,2’-bipyridine and characterization of their copper(I) complexes // Inorganica ChimicaActa. – 1984. – Vol. 84. – № 1. – P. 79-84.154.Sakurai T., Kimura M., Nakahara A. A Facile reduction of copper(II) leading toformation of stable copper(I) complexes. Redox rroperties of four- and five-coordinate coppercomplexes // Bulletin of the Chemical Society of Japan.
– 1981. – Vol. 54. – № 10. – P. 29762978.171155.Kitagawa S., Munakata M. Binuclear copper(I) complexes which reversibly react withCO. 1. Di-p-halogeno-bis(2,2’-bipyridine)dicopper(I) and its derivatives // Inorganic Chemistry.– 1981. – Vol. 20. – № 7. – P. 2261-2267.156.Kitagawa S., Munakata M., Higashie A. Effect of substituents on the charge transfer bandof copper(I) complexes with 4-monosubstituted pyridines // Inorganica Chimica Acta.
– 1982. –Vol. 52. – P. 219-223.157.Turnbull M., Pon G., Willett R. Autoreduction of copper (II) by a non-chelating amineligand: Synthesis and X-Ray structure of tris(2,3-dimethylpyrazine)dicopper(I) perchlorate //Polyhedron. – 1991. – Vol. 10. – № 35. – P. 1835-1838.158.Musker W.K. Chemistry of aliphatic thioether cation radicals and dications // Accounts ofChemical Research. – 1980. – Vol. 13. – № 3.
– P. 200-206.159.Colman P.M., Freeman H.C., Guss J.M., Murata M., Norris V.A., Ramshaw J.A.M.,Venkatappa M.P. X-ray crystal structure analysis of plastocyanin at 2.7 Å resolution // Nature. –1978. – Vol. 272. – № 5651. – P. 319-324.160.Adman E.T., Stenkamp R.E., Sieker L.C., Jensen L.H. A crystallographic model forazurin at 3 Å resolution // Journal of Molecular Biology. – 1978. – Vol. 123. – № 1.
– P. 35-47.161.Latour J.M. Binuclear active sites of copper proteins, Stimulants for a new coppercoordination chemistry // Bulletin de la Société Chimique de France. – 1988. – № 3. – P. 508523.162.Sorrell T.N., Cheesman E.H. An improved synthesis of 2,2′-dimercaptobiphenyl //Synthetic Communications. – 1981. – Vol. 11. – № 11. – P. 909-912.163.Beloglazkina Е.K., Shimorsky A.V., Mazhuga A.G., Shilova О.V., Tafeenko V.А., ZykN.V. Formation of CuI(CH3CN)4ClO4 in the reactions of copper(II) perchlorate with acetonitrilein the presence of sulfur-containing organic compounds // Russian Journal of General Chemistry.– 2009.
– Vol. 79. – №. 7. – P. 1504–1508.164.Beloglazkina E.K., Shimorsky A.V., Majouga A.G., Moiseeva A.A., Zyk N.V. Synthesisand electrochemical characterization of CoII, NiII, and CuII complexes with organic N2S2-typeligands derived from 2-thio-substituted benzaldehydes and aromatic amines // Russian ChemicalBulletin. – 2007. – Vol.
56. – № 11. – P. 2189-2199.165.Saura J. Gas-sensing properties of SnO2 pyrolytic films subjected to ultrviolet radiation //Sensors and Actuators B: Chemical. – 1994. – Vol. 17. – № 3. – P. 211-214.166.Law M., Kind H., Messer B., Kim F., Yang P. Photochemical sensing of NO2 with SnO2nanoribbon nanosensors at room temperature // Angewandte Chemie International Edition. –2002. – Vol.
41. – № 13. – P. 2405-2408.172167.Anothainart K., Burgmair M., Karthigeyan A., Zimmer M., Eisele I. Light enhanced NO2gas sensing with tin oxide at room temperature: conductance and work function measurements //Sensors and Actuators B: Chemical. – 2003. – Vol.
93. – № 1-3. – P. 580-584.168.Ge C., Xie C., Hu M., Gui Y., Bai Z., Zeng D. Structural characteristics and UV-lightenhanced gas sensitivity of La-doped ZnO nanoparticles // Materials Science and Engineering:B. – 2007. – Vol. 141. – № 1-2. – P. 43-48.169.de Lacy Costello B.P.J., Ewen R.J., Ratcliffe N.M., Richards M. Highly sensitive roomtemperature sensors based on the UV-LED activation of zinc oxide nanoparticles // Sensors andActuators B: Chemical. – 2008. – Vol.
134. – № 2. – P. 945-952.170.Prades J.D., Diaz R.J., Hernandez-Ramirez F., Barth S., Cirera A., Romano-RodriguezA., Mathur S., Morante J.R. Equivalence between thermal and room temperature UV lightmodulated responses of gas sensors based on individual SnO2 nanowires // Sensors andActuators B: Chemical.
– 2009. – Vol. 140. – № 2. – P. 337-341.171.Prades J.D., Jimenez-Diaz P., Manzanares M., Hernandez-Ramirez F., Cirera A.,Romano-Rodriguez A., Mathur S., Morante J.R. A model for the response towards oxidizinggases of photoactivated sensors based on individual SnO2 nanowires // Physical ChemistryChemical Physics. – 2009. – Vol. 11. – № 46. – P. 10881-10889.172.Bouguessa S., Gouasmia A. K., Golhen S., Ouahab L., Fabre J. M. Synthesis andcharacterization of TTF-type precursors for the construction of conducting and magneticmolecular materials // Tetrahedron Letters. – 2003. – Vol. 44. – № 52.
– P. 9275-9278.173.Andreu R., Malfant I., Lacroix P.G., Cassoux P. New tetrathiafulvalene-π-spacer-acceptorderivatives: Synthesis, crystal structure, optical and electrochemical properties // EuropeanJournal of Organic Chemistry. – 2000. – Vol. 2000. – № 5. – P.
737-741.174.Gonzalez S., Martin N., Segura J.L., Seoane C. Convenient regioselective syntheses ofisomeric bis(tetrathiafulvalenylethenyl)naphthalene π-donors // Tetrahedron Letters. – 1998. –Vol. 39. – № 19. – P. 3051-3054.175.(a) Iyoda M., Hasagewa M., Kuwatani Y., Nishikawa H., Fukami K., Nagase S.,YamamotoG.Effectsofmolecularassociationintheradical-cationsof1,8-bis(ethylenedithiotetrathiafulvalenyl)naphthalene // Chemistry Letters. – 2001. – Vol. 30.
– №11. – P. 1146-1147.(b) Iyoda M., Hasegawa M., Takano J., Hara K., Kuwatani Y. Intramolecular charge interactionin the radical cations and dications of conjugated tetrathiafulvalene dimers // Chemistry Letters.– 2002. – Vol. 31. – № 6. – P. 590-591.173176.(a) Mizutani M., Tanaka K., Ikeda K., Kawabata K. Synthesis of a novel donor, BTFE-DMB, and the electrical properties of its iodine salts // Synthetic Metals. – 1992.
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