Диссертация (1150096), страница 18
Текст из файла (страница 18)
Chem. C. 2010. V. 114. P. 1251712523.11469. Tuzar Z. and Kratochvil P. Block and graft copolymer micelles in solution //Adv. Сolloid Interface Sci. 1976, V. 6, P. 201 – 232.70. Attwood D. and Florence A.T. Surfactant Systems: Their Chemistry, Pharmacyand Biology // London: Chapman and Hall. 1983.71.Hunter R.J.
Foundations of Colloid Science // New York: Oxford UniversityPress. 1987 – V.1.72. Price C. Micelle formation by block copolymers in organic solvents // Pure Appl.Chem. 1983, V. 55, P. 1563 – 1572.73. Tanford C. The Hydrophobic Effect: Formation of Micelles and BiologicalMembranes, 2nd edn. // New York: Wiley. 1980.74. Ben-Naim. Hydrophobic Interactions // New York : Plenum. 1980.75. Alexandridis P., Nivaggioli T., Holzwarth J.F. and Hatton T.A.
Characterizationof Block Copolymer Micellar Solutions:Thermodynamics and Microenvironment// Polym. Prepr. (Am. Chem. Soc. Div. Polym. Chem.) 1994, V. 35, № 1, P. 604 –605.76. Armstrong J.K., Parsonage J., Chowdhry B., Leharnc S., Mitchell J., Beezer A.,Lohner K. and Laggner P. Scanning densitometric and calorimetric studies ofpoly(ethyleneoxide)/poly(propyleneoxide)/poly(ethyleneoxide)triblockcopolymers (poloxamers) in dilute aqueous solution // J.
Phys. Chem. 1993, V.97, P. 3904 – 3909.77. Hassan C.M., Peppas N.A. Structure and Applications of Poly(vinyl alcohol)Hydrogels Produced by Conventional Crosslinking or by Freezing/ThawingMethods // Advances in Polymer Science. 2000, V. 153, P. 37 – 65.78. Розенберг М.Э. Полимеры на основе винилацетата // Ленинград: Химия.1983.79.
Ушаков С.Н. Поливиниловый спирт и его производные // М.-Л. : АН СССР.1960.80. Tubbs R.K. Sequence distribution of partially hydrolyzed poly(vinylacetate) // J.Polym. Sci. A1. 1966, V. 4, P. 623 – 629.11581. Damas C., Leprince T. et al. Behavior study of polyvinyl alcohol aqueoussolution in presence of short chain micelle-forming polyols // ColloidPolymer Science. 2008, V.
286, P. 999 – 1007.82. Tesei G., Paradossi G., Chiessi E. Poly(vinyl alcohol) Oligomer in DiluteAqueous Solution: A Comparative Molecular Dynamics Simulation Study //J. ofPhys.Chem. B. 2012, V. 116, P. 10008 – 10019.83.Finch C.A. Poly(vynil alcohol): properties and applications // New York: Wiley.1973.84. Lamatic I.E., Bercea M. and Morariu S. Intristic viscosity of aqueous polyvinylalcohol solutions // Rev.
Roum. Chim. 2009, V. 54, P. 981–986.85. Gao H.W., Yang R.J., He J.-Y. and Yang L.. Rheological behaviors of PVA/H2Osolutions of high-polymer concentration // J. Appl. Polym. Sci. 2010, V. 116, P.1459–1466.86. Choi J.H., Ko S.W., Kim B.C., Blackwell J. and Lyoo W.S. Phase Behavior andPhysical Gelation of High Molecular Weight Syndiotactic Poly(vinyl alcohol)Solution // Macromolecules.
2001, V. 34, P. 2964–2972.87. Alves M.H., Jensen B.E.B., Smith A.A.A. and Zelikin A.N. Poly(Vinyl Alcohol)Physical Hydrogels: New Vista on a Long Serving Biomaterial // Macromol.Biosci., 2011, V. 11, P. 1293–1313.88. Kanaya T., Okhura M., Kaji K., Furusaka M. and Misawa M. Structure ofPoly(vinyl alcohol) Gels Studied by Wide- and Small-Angle Neutron Scattering//Macromolecules. 1994, V. 27, P. 5609–5615.89. Chen C., Zhu Y., Bao H., Zhao P., Jiang H., Peng L., Yangand X., Li C. Solventassisted poly(vinyl alcohol) gelated crystalline colloidal array photonic crystals //Soft Matter.
2011, V. 7, P. 915–921.90. Lozinsky V.I., Damshkaln L.G., Ezernitskaya M.G., Glotova Y.K. and AntonovY.A. Cryostructuring of polymer systems. Wide pore poly(vinyl alcohol)cryogels prepared using a combination of liquid–liquid phase separation andcryotropic gel-formation processes // SoftMatter. 2012, V. 8, P. 8493–8504.11691. Bercea M., Morariu S., Rusu D. In situ gelation of aqueous solutions ofentangled poly(vinyl alcohol) // Soft Matter. 2013, V.
9, P. 1244 – 1253.92. Hong P.-D. et al. Solvent effects on aggregation behavior of polyvinyl alcoholsolutions // Polymer. 2001, V. 42, P. 6105 – 6112.93. Hara C., Matsuo M. Phase separation in aqueous poly(vinyl alcohol) solution //Polymer. 1995, V. 36, № 3, P. 603 – 609.94. Lozinsky V.I. and Plieva F.M. Poly(vinyl alcohol) cryogels employed asmatrices for cell immobilization. 3.
Overview of recent research anddevelopments // Enzyme Microb. Technol.1998, V. 23, P. 227 – 242.95. Kwak J.C.T. Polymer-Surfactant Systems, Surfactant Science Ser. 77 //Ed.Kwak, J.C.T. New York: Marcel Dekker. 1998.96. Goddard E.D. Polymer—surfactant interaction Part I. uncharged water-solublepolymers and charged surfactants //Colloid Surf. 1986, V.
19, P. 255– 300.97. Robb I. D. In: Anionic Surfactants - Physical Chemistry of Surfactant Action //Ed. E.H. Lucassen-Reynders. New York: Marcel Dekker. 1981, P. 109 – 142.98. Saito S. In: Nonionic Surfactants // Ed. M. J. Schick.New York:Marcel Dekker.1987, P. 881 – 926.99. Goddard E.D. and. Ananthapadhmanabhan K.. Interactions of Surfactants withPolymer and Proteins // Ed. E.D. Goddard and K.P. Ananthapadhmanabhan. BocaRaton, FL: CRC Press.
1993.100.Nagarajan R.Polymer-Surfactant Interactions // New Horizons: Detergentsfor the New Millennium Conference Invited Papers, sponsored by American OilChemists Society and Consumer Specialty Products Association, Fort Myers,Florida. 2001101.Turro N.J., Baretz B.H. and Kuo P. Photoluminescence probes for theinvestigation of interactions between sodium dodecylsulfate and water-solublepolymers // Macromolecules. 1984, V.
17, P. 1321 – 1324.102. Cabane B. In: Solution Behavior of Surfactants // Ed. K.L. Mittal and E.J.Fendler. New York, NY: Plenum Press. 1982, V. 1, P. 661 – 665.117103. Smith M.L. and Muller N.Fluorine magnetic resonance and equilibrium dialysisstudy of the binding of sodium 12,12,12-trifluorododecylsulfate by polyethyleneglycol // J. Colloid Interface Sci. 1975, V. 52, P.
507 – 515.104. Cabane B. Structure of some polymer-detergent aggregates in water //J. Phys.Chem.1977, V. 81, P. 1639 – 1645.105. Nagarajan R. and Kalpakci B. Polym. Prepr. Am. Chem. Soc. Div. Polym. 1982,V. 23, P. 41 – 42.106. Nagarajan R. and Kalpakci B. In: Microdomains in Polymer Solutions // Ed.P.L. Dubin. New York: Plenum Press. 1985, P. 368 – 381.107. Murata M.and Arai H. The interaction between polymer and surfactant: Theeffectoftemperatureandaddedsaltontheinteractionbetweenpolyvinylpyrrolidone and sodium dodecyl sulfate //J. Colloid Interface Sci.1973, V. 44, P. 475 – 480.108. Arai H., Murata M.and Shinoda K.
The interaction between polymer andsurfactant: The composition of the complex between polyvinylpyrrolidone andsodium alkyl sulfate as revealed by surface tension, dialysis, and solubilization //J. Colloid Interface Sci.. 1971, V. 37, P. 223 – 227.109. Fishman M.L. and Eirich F. R. Interactions of aqueous poly(N-vinylpyrrolidone)with sodium dodecyl sulfate. I. Equilibrium dialysis measurements //J. Phys.Chem. 1971, V.
75, P. 3135 – 3140.110. LangeH.WechselwirkungzwischenNatriumalkylsulfatenundPolyvinylpyrrolidon in wäßrigen Lösungen // Kolloid Z. Z. Polym. 1971, V.243, P. 101 – 109.111. Gilanyi T. and Wolfram E.. Interaction of ionic surfactants with polymers inacqueous solution // Colloids Surfaces. 1981, V. 3, P. 181 – 198.112. Van Stam J.
et al. The role of polymer flexibility on the interaction withsurfactant micelles: poly(vinyl alcohol) and sodium dodecyl sulphate aqueousmicelle interactions studied by dynamic fluorescence quenching // CanadianJournal of Chemistry. 1995, V. 73, P. 1765 – 1772.118113. Brown W., Fundin J., Miquel MdaG. Poly(ethylene oxide)-sodium dodecylsulfate interactions studied using static and dynamic light scattering //Macromolecules. 1992, V.
25, P. 7192 – 7198.114. Xia J., Dublin P.L., Kim Y. Complex formation between poly(oxyethylene) andsodium dodecyl sulfate micelles: light scattering, electrophoresis, and dialysisequilibrium studies, J. Phys. Chem. 1992, 96, 6805 – 6811.115. Bakshi M.S., Kaur R., Kaur I., Mahajan R.K., Sehgal P., Doe H. Unlikesurfactant–polymer interactions of sodium dodecyl sulfate and sodiumdodecylbenzene sulfonate with water-soluble polymers // Colloid PolymerScience. 2003, V. 281, P. 716 – 726.116.
Ruckenstein E., Huber G., Hoffman H. Surfactant aggregation in the presence ofpolymers // Langmuir. 1987, V. 73, P. 382 – 387.117. Mya K.Y., Jemerson A.M., Sirivat A. Interactions between the nonionicsurfactant and polyacrylamide studied by light scattering and viscometry,Polymer, 1999, 40, 5741 – 5749.118. Nagarajan R., Wang C. Estimation of Surfactant Tail Transfer Free Energiesfrom Polar Solvents to Micelle Core // Langmuir. 1995, V. 11, №12, P.
4673 –4677.119. Nagarajan R., Wang C.-C. Theory of Surfactant Aggregation in Water/EthyleneGlycol Mixed Solvents // Langmuir. 2000, V. 16, №12,P. 5242 – 5251.120. Nagarajan R., Wang C.-C. Solution Behavior of Surfactants in Ethylene Glycol:Probing the Existence of a CMC and of Micellar Aggregates // Journal ofColloid and Interface Science. 1996, V. 178, №2, P. 471 – 482.121.
Drobizhev M., Karotki A., Rebane A., and Spangler C.W.. Dendrimer moleculeswith record large two-photon absorption cross section // Opt. Lett. 2001, V. 26,P. 1081 – 1083.122. Nalwa H. S. Handbook of Organic Electronics and Photonics //Ed. H.S. Nawla.Los Angeles: American Scientific Publishers. 2008.119123. Chin K.C., Gohel A., Elim H.I., Chen W., Ji W., Chong G.L., Sow C.H., andWee A.T.S.
Modified carbon nanotubes as broadband optical limitingnanomaterials // J. Mater. Res. 2006, V. 21, P. 2758 – 2766.124. Wu P., Rao D.V.G.L.N., Kimball B.R., Nakashima M., and DeCristofano B.S.Transient optical modulation with a disperse-red-1–doped polymer film // Appl.Opt. 2000, V. 39, P. 814 – 817.125. Lefrant S., Anglaret E., Vivien L., and Riehl D. Utilisation des fullerènes et desnanotubes de carbone pour la réalisation de limiteurs optiques // Vide-Sci.Technol.
Appl. 2001, V.56, P. 288 – 306.126. Mansour K., Soileau M.J., and Van Stryland E.W. Nonlinear optical propertiesof carbon-black suspensions (ink) // J. Opt. Soc.Am. B. 1992, V.9, P. 1100 –1109.127. Sun X., Yu R.Q., Xu G.Q., Hor T.S.A., and Ji W. Broadband optical limitingwith multiwalled carbon nanotubes //Appl. Phys.Lett. 1998, V. 73, P. 3632 –3634.128. Vivien L., Lancon D., Riehl D., Hache F., and Anglaret E. Carbon nanotubes foroptical limiting // Carbon. 2000, V. 40, P. 1789 – 1797.129. Mansour K. Ph.D. dissertation (University of North Texas, Denton, Tex., 1990.130.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
