Диссертация (1145487), страница 35
Текст из файла (страница 35)
V. 25, N 22. P.13000–13006.123.Okuyama K., Soboi Y., Iijima N. et al. Molecular and CrystalStructure of the Lipid-Model Amphiphile dioctadecyldimethylammoniumBromide Monohydrate // Bull. Chem. Soc. Jpn. 1988. V. 61. P. 1485.124.F. Feng, M. Mitsuishi, T.
Miyashita, I. Okura, K. Asai, Y.Amano,Preporation Polymer Langmuir−BlodgettFilms Containing PorphyrinChromophore, Langmuir 15 (1999) 8673.125.T. Ogi, H. Ohkita, S. Ito, M. Yamamoto, Preparation of porphyrinmono- and multi-layer films based on the polymer Langmuir–BlodgettmethodThin Solid Films 415 (2002) 228–235126.B.Muetal.Langmuir–Blodgettfilmsofcyclopalladatedferrocenylimine: preparation, characterization, and application in Suzukicoupling reaction / Tetrahedron 65 (2009) 2599–2604277127.Luo, G.; Malkova, S.; Yoon, J.; Schultz, D. G.; Lin, B.; Meron, M.;Benjamin, I.; Vanysek, P.; Schlossman, M.
L. Ion-Distributions Near aLiquid-Liquid Interface. Science 2006, 311, 216–218.128.Binder, W. H. Supramolecular Assembly of Nanoparticles at Liquid-Liquid Interfaces. Angew. Chem., Int. Ed. 2005, 44, 2–5.129.Binks, B. P.; Clint, J. H. Solid Wettability from Surface EnergyComponents: Relevance to Pickering Emulsions. Langmuir 2002, 18, 1270–1273.130.Lin, Y.; Skaff, H.; Emrick, T.; Dinsmore, A. D.; Russel, T.
P.Nanoparticle Assembly and Transport at Liquid-Liquid Interfaces. Science2003, 299, 226–229.131.Benkoski, J.; Jones, R. L.; Doughlas, J. F.; Karim, A. PhotocurableOil/Water Interfaces as a Universal Platform for 2-D Self-Assembly.Langmuir 2007, 23, 3530–3537.132.Rao, C. N. R.; Kulkarni, G. U.; Thomas, P. J.; Agrawal, V.
V.;Saravanan, P. Films of Metal Nanocrystals Formed at Aqueous-OrganicInterfaces. J. Phys. Chem. B 2003, 107, 7391–7395.133.Rao, C. N. R.; Kulkarni, G. U.; Agrawal, V. V.; Gautam, U. K.;Ghosh, M.; Tumkurkar, U. Use of the Liquid-Liquid Interface forGenerating Ultrathin Nanocrystalline Films of Metals, Chalcogenides, andOxides. J. Colloid Interface Sci. 2005, 289, 305–318.134.Agrawal, V. V.; Kulkarni, G. U.; Rao, C.
N. R. Surfactant-PromotedFormation of Fractal and Dendritic Nanostructures of Gold and Silver at theOrganic-Aqueous Interface. J. Colloid Interface Sci. 2008, 318, 501–506.135.Gautam, U. K.; Ghosh, M.; Rao, C. N. R. A Strategy for the Synthesisof Nanocrystal Films of Metal Chalcogenides and Oxides by Employing theLiquid-Liquid Interface.
Chem. Phys. Lett. 2003, 381, 1–6.136.Gautam, U. K.; Ghosh, M.; Rao, C. N. R. Template-Free ChemicalRoute to Ultrathin Single-Crystalline Films of CuS and CuO Employing theLiquid-Liquid Interface. Langmuir 2004, 20, 10776–10778.278137.Kalyanikutty, K. P.; Gautam, U. K.; Rao, C. N. R. Ultra-ThinCrystalline Films of ZnS and PbS Formed at the Organic-Aqueous Interface.Solid State Sci. 2006, 8, 296–302.138.Gleiche, M.; Chi, L. F.; Fuchs, H. Nanoscopic channel lattices withcontrolled anisotropic wetting.
Nature 2000, 403, 173−174.139.Chen, X.; Hirtz, M.; Fuchs, H.; Chi, L. F. Self-organized patterning:Regular and spatially tunable luminescent submicrometer stripes over largeareas. Adv. Mater. 2005, 17, 2881−2885.140.Chen, X.; Lenhert, S.; Hirtz, M.; Lu, N.; Fuchs, H.; Chi, L. F.Langmuir−BlodgettPatterning:ABottom−UpWayToBuildMesostructures over Large Areas. Acc. Chem. Res. 2007, 40, 393−401.141.Miguel Clemente-Leon, Eugenio Coronado, Angel Lopez-Munoz,Diego Repetto, Laure Catala, and Talal Mallah // Patterning of MagneticBimetallic Coordination Nanoparticles of Prussian Blue Derivatives by theLangmuir−Blodgett Technique // Langmuir 2012, 28, 4525−4533142.D.M. Taylor, J.N. Lambi, On the preparation of thin metal oxides byLangmuir-Blodgett film deposition Thin Solid Films 243 (1994) 384.143.N. Matsura, D.J.
Johnson, D.T. Amm, Fabrication of cadmium oxidethin films using the Langmuir-Blodgett deposition techniqueThin SolidFilms 295 (1997) 260.144.P. Ganguly, D.V. Paranjape, M. Sastry, Novel structure of Langmuir-Blodgett films of chloroplatinic acid using n- octadecylamine: evidence forinterdigitation of hydrocarbon chains J.
Am. Chem. Soc. 115 (1993) 793.145.P. Ganguly, D.V. Paranjape, M. Sastry, Studies on the deposition oftitanyl oxalate ions using long-chain hydrocarbon amines Langmuir 9 (1993)577.146.D.V. Paranjape, M. Sastry, P. Ganguly, Deposition of thin films ofTiO2 from Langmuir–Blodgett film precursors Appl. Phys. Lett. 63 (1993)P.18.279147.Sipra Choudhury, C.A.
Betty, K.G. Girija / On the preparation ofultrathin tin dioxide by Langmuir–Blodgett films deposition / Thin SolidFilms 517 (2008) 923–928148.V. Baranauskas, T.E.A. Santos, M.A. Schreiner, Z. Jingguo, A.P.Mammana, C.I.Z. Mammana, Sens. Actuators, B, Chem. 85 (2002) 90.149.Jian Jin, Lin Song Li, Yi Li, Xia et al.
Preparation of titanium dioxideand barium titanate nanothick film by Langmuir–Blodgett technique/ThinSolid Films 379 (2000) 218–223150.Д.А. Фридрихсберг. // Курс коллоидной химии. - Л. Химия; -1984, - С.352.151.О.Н.Григоров, З.П.Козьмина и др. Электрокинетические свойствакапиллярных систем. // Монография АН СССР - 1956.152.Г.Г.Кройт. Наука о коллоидах. // Т.№1, - М; - 1955, С.214.153.Л.Э.Ермакова. Автореф. дисс. на соиск. к.х.н. // ЛГУ; - 1979.154.R.Xu, C.Li, G.Ji. Effect of low-molecular-weight organic anions onelectrokinetic properties of variable charge soils. // J.Coll.Interface Sci., 2004, V. 277, P.
243–247.155.С.С.Духин. Электропроводность и электрохимия. Свойствадисперсных систем. // Киев; Наукова думка, - 1975, - С.246.156.Th.Tadros, I.Lyklema. Adsorption of potential-determining ions at thesilica—aqueouselectrolyteinterfaceandtheroleofsomecations.// J.Elektroanal.Chem., - 1968, - V.17, - №3-4, Р. 267-275.157.I.Lyklema. The structure of the electrical double layer on poroussurfaces. // J.Elektroanal.Chem. - 1968, - V.18, - №4, - P.341-348.158.I.W.Perram. A study of reactions between cupric or ferric sulphatesolutions and a stearic acid monolayer. // J.Coll.Interface Sci., - 1973 - V.42,P.96-102.159.М.П.Сидорова,Й.Ликлема.Д.А.Фридрихсберг.Комплексноеисследование электрохимических и адсорбционных характеристик.
//Коллоидный журнал, - 1976, - Т.38, - С.716-720.280160.D.E.Iates, T.Healy. The structure of the silica/electrolyte interface. //J.Coll.Interface Sci., - 1976, - V. 55, №1, - P.9-19.161.R.O. James, J.A. Davis and J.O. Leckie. Computer simulation of theconductometric and potentiometric titrations of the surface groups onionizable latexes. // J.Coll.Interface Sci., - 1978 – V.
65, - P.331-344.162.J. L. Gallani, J. Le Moigne, L. Oswald, and P. Turek, Langmuir №17стр.1104-1109, 2001163.Porath J., Carlsson J., Olsson I., Belfrage G. Metalchelate affinitychromatography. A new approach to protein fractionation // Nature. – 1975.– V. 258. – P. 598–599.164.Batalha I.L., Lowe C.R., Roque A.C.A. Platforms for enrichment ofphosphorylated proteins and peptides in proteomics // Trends inBiotechnology. – 2011.
– Vol. 30. N 2. – P. 100-110.165.Leitner A. Phosphopeptide enrichment using metal oxide affinitychromatography // Trends in Analytical Chemistry – 2010. – Vol. 29. N 2. –P. 177–185.166.Block H., Maertens B., Spriestersbach A., Brinker N., Kubicek J.,Fabis R., Labahn J., Schäfer F. Immobilized-metal affinity chromatography(IMAC): a review // Methods Enzymol.
– 2009. – V. 463. – P. 439–473.167.Cheung R.F., Wong JH. Tzi Bun Ng. Immobilized metal ion affinitychromatography:a review on its applications // Appl Microbiol Biotechnol. –2012. – V. 96. – P. 1411–1420.168.Black T.M., Andrews C.L., Kilili G., Ivan M., Tsichlis P.N., Vouros P.Characterization of phosphorylation sites on Tpl2 using IMAC enrichmentand a linear ion trap mass spectrometer // Journal of Proteome Research. –2007. – Vol. 6.
N 6. – P. 2269-2276.169.Tsai C.F., Wang Y.T., Chen Y.R., Lai C.Y., Lin P.Y., Pan K.T., ChenJ.Y., Khoo K.H., Chen Y.J. Immobilized metal affinity chromatographyrevisited: pH/acid control toward high selectivity in phosphoproteomics //J.Proteom.Res. – 2008. – Vol. 7. N 9. – P. 4058-4069.281170.Duhita N., Hiwasa-Tanase K., Yoshida S., Ezura H. Single-steppurificationofnativemiraculinusingimmobilizedmetal-affinitychromatography // J.Agric.Food.Chem. – 2009. – Vol.
57. N 12. – P. 51485151.171.Hart S.R., Waterfield M.D., Burlingame A.L., Cramer R. Factorsgoverning the solubilization of phosphopeptides retained on ferric NTAIMAC beads and their analysis by МАЛДИ TOFMS // Journal of theAmerican Society for Mass Spectrometry. – 2002. – Vol. 13. N 9.
– P. 10421051.172.Lee Y-M., Venkataraman K., Hwang S-I., Han D.K., Hla T. A novelmethod to quantify sphingosine 1-phosphate by immobilized metal affinitychromatography (IMAC) // Prostaglandins & Other Lipid Mediators. – 2007.– Vol. 84. N 3-4. – P. 154-162.173.Ren D., Penner N.A., Slentz B.E., Mirzaei H., Regnier F. Evaluatingimmobilized metal affinity chromatography for the selection of histidinecontaining peptides in comparative proteomics // J.Proteome.Res. – 2003. –Vol. 2. N 3. – P.
321-329.174.Vincent P., Dieryck W., Maneta-Peyret L., Moreau P., Cassagne C.,Santarelli X. Chromatographic purification of an insoluble histidine tagrecombinant Ykt6p SNARE from Arabidopsis thaliana over-expressed in E.coli // Journal of Chromatography B. – 2007.
– Vol. 845. N 1. – P. 143-150.175.Chen C.-T., Chen Y.-C. Fe3O4/TiO2 Core/Shell Nanoparticles asAffinity Probes for the Analysis of Phosphopeptides Using TiO2 SurfaceAssisted Laser Desorption/Ionization Mass Spectrometry // Anal. Chem. –2005. – V. 77. – P. 5912–5919.176.Liang S.-S., Makamba H., Huang S.-Y., Chen S.-H. Nano-titaniumdioxide composites for the enrichment of phosphopeptides //J. Chromatogr.A. – 2006.
– V. 1116. – P. 38–45.282177.Qiao L., Roussel C., Wan J., Yang P., Girault H.H., Liu B. Specific On-Plate Enrichment of Phosphorylated Peptides for Direct МАЛДИ-TOF MSAnalysis //J. Proteome Res. – 2007. – V. 6. – P. 4763–4769.178.Lin B., Li T., Zhao Y., Huang F.-K., Guo L., Feng Y.-Q. Preparationof a TiO2 nanoparticle-deposited capillary column by liquid phasedeposition and its application in phosphopeptide analysis // J. Chromatogr.A. – 2008. – V. 1192.
– P. 95–102.179.Lo C.-Y., Chen W.-Y., Chen C.-T., Chen Y.-C. Rapid Enrichment ofPhosphopeptides from Tryptic Digests of Proteins Using Iron OxideNanocomposites of Magnetic Particles Coated with Zirconia as theConcentrating Probes // J. Proteome Res. – 2007. – V. 6. – P. 887–893.180.Li Y., Leng T., Lin H., Deng C., Xu X., Yao N., Yang P., Zhang X.Preparation of Fe3O4@ZrO2 Core−Shell Microspheres as Affinity Probesfor Selective Enrichment and Direct Determination of PhosphopeptidesUsing Matrix-Assisted Laser Desorption Ionization Mass Spectrometry // J.Proteome Res. – 2007.
– V. 6. – P. 4498–4510.181.Röhrig H., Colby T., Schmidt J., Harzen A., Facchinelli F., Bartels D.Analysisofdesiccation-inducedcandidatephosphoproteinsfromCraterostigma plantagineum isolated with a modified metal oxide affinitychromatography procedure //Proteomics. – 2008. – V. 8. – P. 3548–3560.182.Li Y., Lin H., Deng C., Yang P., Zhang X.
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