Диссертация (1105190), страница 25
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Homogeneous free radical polymerizations in supercriticalcarbon dioxide: 2. Thermal decomposition of 2,2'-azobis(isobutyronitrile) / Z.Guan, J.R. Combes, Y.Z. Menceloglu, J.M. DeSimone // Macromol – 1993 – V.26– P.2663.15185Hoefling, T.A. Effect of structure on the cloud-point curves of silicone-based amphiphiles in supercritical carbon dioxide / T.A. Hoefling, D.A. Newman,R.M. Enick, E.J. Beckman // J Supercrit Fluids – 1993 – V.6 – P.165.86Fukunaga, K. Large-scale alignment of ABC block copolymermicrodomains via solvent vapor treatment. / K.
Fukunaga, H. Elbs, R. Magerle, G.Krausch. // Macromol – 2000 – V.33 – P.947.87Kim, S.H. Highly oriented and ordered arrays from block copolymers viasolvent evaporation. / S.H. Kim, M.J. Misner, T. Xu, M. Kimura, T.P. Russell. //Adv Mater – 2004 – V.16 – P.226.88Alexandridis, P. Solvent-regulated ordering in block copolymers / P.Alexandridis, R.J. Spontak. // Curr Opin Colloid Interface Sci – 1999 – V.4 – P.130.89RamachandraRao, V.S. Enhancement of Diblock Copolymer OrderingKinetics by Supercritical Carbon Dioxide Annealing.
/ V.S. RamachandraRao,R.R. Gupta, T.P. Russell, J.J. Watkins. // Macromol – 2001 – V.34 – P.7923.90Vogt,B.D.PhaseBehaviorofPolystyrene-block-poly(n-alkylmethacrylate)s Dilated with Carbon Dioxide / B.D. Vogt, V.S. RamachandraRao,R.R. Gupta, K.A. Lavery, T.J. Francis, T.P. Russell, J.J. Watkins. // Macromol –2003 – V.36 – P.4029.91Cho, D. Deposition of Block Copolymer Thin Films onto PolymericSubstrates by Adsorption from Supercritical Carbon Dioxide. / D. Cho, Y.J. Kim,C.
Erkey, J.T. Koberstein. // Macromol – 2005 – V.38 – P.1829.92Gallyamov, M.O. Self-assembly of (perfluoroalkyl)alkanes on a substratesurface from solutions in supercritical carbon dioxide. /, A. Mourran, B. Tartsch,R.A. Vinokur, L.N. Nikitin, A.R. Khokhlov, K. Schaumburge, M. Moller. // PhysChem Chem Phys – 2006 – V.8 – P.2642.15293Di Lena, F. Transition metal catalysts for controlled radicalpolymerization / F. di Lena, K. Matyjaszewski // Prog Polym Sci – 2010 – V.35 –P.959.94Parmeggiani, C.
Transition metal based catalysts in the aerobic oxidationof alcohols / C. Parmeggiani, F. Cardona // Green Chem – 2012 – V.14 – P.547.95Shi, Z. Recent advances in transition-metal catalyzed reactions usingmolecular oxygen as the oxidant / Z. Shi, C. Zhang, C. Tang, N. Jiao // Chem SocRev – 2012 – V.41 – P.3381.96King, D.A. The Chemical Physics of Solid Surfaces and HeterogeneousCatalysis / D.A.
King, D.P. Woodruff // Elsevier Science Publishers B.V.,Amsterdam – 1988.97Cuenya, B.R. Synthesis and catalytic properties of metal nanoparticles:Size shape, support, composition, and oxidation state effects / B.R. Cuenya // ThinSolid Films – 2010 – V.518 – P.3127.98Gao, M. Role of the support effects on the catalytic activity of goldclusters: a density functional theory study / M. Gao, A. Lyalin, T.Taketsugu //Catalysts – 2009 – V.1 – P.18.99El-Sayed, M.A. Some interesting properties of metals confined in timeand nanometer space of different shapes / M.A. El-Sayed // Acc Chem Re – 2001 –V.34 – P.257.100Claus, P.
Supported gold nanoparticles from quantum dot to mesoscopicsize scale: effect of electronic and structural properties on catalytic hydrogenationof conjugated functional groups / P. Claus, A. Bruckner, C. Mohr, H. Hofmeister //J Am Chem Soc – 2000 – V.122 – P.11430.101Rao, C.N.R. Size-Dependent Chemistry: Properties of Nanocrystals /C.N.R.
Rao, G.U. Kulkarni, P.J. Thomas, P.P. Edwards // Chem-eur J – 2002 –V.8 – P.28.153102Koenig, M. Catalytically Active Nanocomposites Based on Palladiumand Platinum Nanoparticles in Poly(2-vinylpyridine) Brushes / M. Koenig, F.Simon, P. Formanek, M. Möller, S. Gupta, M. Stamm, P. Uhlmann // MacromolChem Phys – 2013 – V.214 – P.2301.103Elmanovich, I.V.
Organometallic Pt precursor on graphite substrate:deposition from SC CO2, reduction and morphology transformation as revealed bySFM / I.V. Elmanovich, M.O. Gallyamov, A.V. Naumkin, A.R. Khokhlov // JNanopart Research – 2012 – V.14 – P.733.104Grigor’ev T.E. Electrocatalysts for fuel cells synthesized in supercriticalcarbon dioxide / T.E. Grigor’ev, E.E.
Said-Galiev, A.Yu. Nikolaev, M.S.Kondratnko, I.V. Elmanovich, M.O. Gallyamov, A.R. Khokhlov // NanotechnolRuss – 2011 – V.6 – P.311.105Said-Galiev, E. Structural and electrocatalytic features of Pt/C catalystsfabricated in supercritical carbon dioxide / E. Said-Galiev, A. Nikolaev, E.
Levin,E. Lavrentyeva, M. Gallyamov, S. Polyakov, G. Tsirlina, O. Petrii, A. Khokhlov //J Solid State Electrochem – 2011 – V.15 – P.623.106Segalman, R.A. Patterning with block copolymer thin films / R.A.Segalman // Mater Sci Eng R-Rep – 2005. – V.48 – P.191.107Park, Ch. Enabling nanotechnology with self assembled blockcopolymer patterns / Ch. Park, J.
Yoon, E.L. Thomas // Polymer – 2003 – V.44 –P.6725.108Nagano, S. Two dimensional nano-dot array engineering of blockcopolymer surface micelles on water surface / S. Nagano, Y. Matsushita, S.Shinma, T. Ishizone, T. Seki // Thin Solid Films – 2009 – V.518 – P.724.109Spatz, J.P.
Mineralization of gold nanoparticles in a block copolymermicroemulsion / J.P. Spatz, S. Mossmer, M. Moller // Chem-eur J – 1996 – V.2 –P.1552.154110Möller, M. Gold nanoparticles in micellar poly(styrene)-b-poly(ethyleneoxide) films—size and interparticle distance control in monoparticulate films / M.Möller, J.P. Spatz, A. Roescher // Adv Mater – 1996 – V.8 – P.337.111Antonietti, M. Novel Amphiphilic Block Copolymers by PolymerReactions and Their Use for Solubilization of Metal Salts and Metal Colloids / M.Antonietti, S.
Forster, J. Hartmann, S. Oestreich // Macromol – 1996 –V.29 –P.3800.112Roulet, M. A simple route to ordered metal oxide nanoparticle arraysusing block copolymer thin films / M. Roulet, M. Vayer, C. Sinturel // Eur Polym J– 2013 – V.49 – P.3897.113Gowd, E.B. Hexagonally ordered arrays of metallic nanodots from thinfilms of functional block copolymers / E.B. Gowd // Polymer – 2010 – V.51 –P.2661.114Acharya, H. Deposition of silver nanoparticles on single wall carbonnanotubes via a self-assembled block copolymer micelles / H. Acharya, J. Sunga,H-I. Shina, S.-Y. Park, B.G. Minc, C.
Park // React Funct Polym – 2009 – V.69 –P.552.115Bennett, R.D. Using block copolymer micellar thin films as templates forthe production of catalysts for carbon nanotube growth / R.D. Bennett, G.Y.Xiong, Z.F. Ren, R.E. Cohen // Chem Mater – 2004 – V.16 – P.5589.116Johnston, K.P. Making nanoscale materials with supercritical fluids /K.P. Johnston, P.S. Shah // Science – 2004 – V.303 – P.482.117Horechyy, A.
Nanoparticle directed domain orientation in thin films ofasymmetric block copolymer / A. Horechyy, B. Nandan, N.E. Zafeiropoulos, D.Jehnichen, M. Gobel, M. Stamm, D. Pospiech // Colloid Polym. Sci. – 2014 –V.292 – P.2249.118German, S.V.
Liposomes loaded with hydrophilic magnetitenanoparticles: Preparationand application as contrast agents for magneticresonance155imaging / S.V. German, N.A. Navolokin, N.R. Kuznetsova, V.V. Zuev, O.A.Inozemtsevaa, A.A. Anis’kov, E.K. Volkova, A.B. Bucharskaya, G.N.Maslyakova, R.F. Fakhrullin ,G.S. Terentyuk, E.L. Vodovozova, D.A. Gorin //Colloid Surface B – 2015 – V.135 – P.109.119Park, S.
Preparation of metallic line patterns from functional blockcopolymers / S. Park, B. Kim, A. Cirpan, T.P. Russell // Small – 2009 – V.5 –P.1343.120Aizawa, M. Block copolymer templated chemistry for the formation ofmetallic nanoparticle arrays on semiconductor surfaces / M. Aizawa, J.M. Buriak //Chem Mater – 2007 – V.19 – P.5090.121Vukovic, I. Block copolymer template-directed synthesis of well-orderedmetallic nanostructures / I.
Vukovic, G.T. Brinke, K. Loos // Polymer – 2013 –V.54 – P.2591.122Hsueh -Y., H. Nanoporous gyroid nickel from block copolymertemplates via electroless plating / H. Hsueh -Y., Y. Huang -C., R. Ho -M., C. Lai H., T. Makida, H. Hasegawa // Adv Mater – 2011 – V.23 – P.3041.123Gazit, O. Periodic nanocomposites: A simple path for the preferentialself-assembly of nanoparticles in block-copolymers / O. Gazit, Y.
Cohen, R.Tannenbaum // Polymer – 2010 – V.51 – P.2185.124Shah, P.S. Role of Steric Stabilization on the Arrested Growth of SilverNanocrystals in Supercritical Carbon Dioxide / P.S. Shah, S. Husain, K.P.Johnston, B.A. Korgel // J Phys Chem B – 2002 – V.106 – P.12178125Пономарев, И.И. Способ получения полибензимидазолов на основе4,4’ - дифинилфталиддикарбоновой кислоты. / Пономарев И.И. ,Рыбкин,Ю.Ю., Волкова, Ю.А., Разоренов, Д.Ю. Патент RU 2 332 429 С1, 27.08.2008126Reid, R.C. The Properties of Gases and Liquids (third edition) / ReidR.C., Prausnitz J.M., Sherwood T.K.
// McGraw Hill – 1977.156127Kinoshita, K. Carbon: Electrochemical and Physicochemical Properties.// John Wiley Sons – 1988.128Rindfleisch F. Solubility of polymers and copolymers in supercriticalCO2 / Rindfleisch F., DiNoia T.A., McHugh M.A // J Phys Chem – 1996 – V. 100– P.15581.129Gallyamov, M.O. Chitosan Molecules Deposited from SupercriticalCarbon Dioxide on a Substrate: Visualization and Conformational Analysis / M.O.Gallyamov, I.S.
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