Диссертация (Дилатационная поверхностная реология растворов смеси полиэлектролитов и ПАВ), страница 23
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4414–4420.148. Bohinc K., Brezesinski G., May S. Modeling the influence of adsorbed DNA on the lateralpressure and tilt transition of a zwitterionic lipid monolayer // Phys. Chem. Chem. Phys.2012. Vol. 14, № 30. P. 10613.149. Paiva D., Brezesinski G., Pereira M.D.C., Rocha S. Langmuir monolayers ofmonocationic lipid mixed with cholesterol or fluorocholesterol: DNA adsorption studies// Langmuir. 2013.
Vol. 29, № 6. P. 1920–1925.150. Lee J., Chang C.-H. The interaction between the outer layer of a mixed ion pairamphiphile/double-chained cationic surfactant vesicle and DNA: a Langmuir monolayerstudy. // Soft Matter. 2014. Vol. 10, № 11. P. 1831–1839.151. Ward A.F.H., Tordai L. Time Dependence of Boundary Tensions of Solutions I. The Roleof Diffusion in Time Effects // J. Chem.
Phys. 1946. Vol. 14, № 1946. P. 453–461.152. Noskov B., Mikhailovskaya A. Adsorption kinetics of globular proteins andprotein/surfactant complexes at the liquid–gas interface // Soft Matter. 2013. Vol. 9, №39. P. 9392.153. Adamczyk Z. Kinetics of Diffusion-Controlled Adsorption of Colloid Particles andProteins // J.
Colloid Interface Sci. 2000. Vol. 229, № 2. P. 477–489.154. Ritacco H.A., Busch J. Dynamic surface tension of polyelectrolyte/surfactant systemswith opposite charges: Two states for the surfactant at the interface // Langmuir. 2004.Vol. 20, № 9. P. 3648–3656.155. Bykov A.G., Lin S.Y., Loglio Mg., Miller R., Noskov B.A.
Kinetics of adsorption layer128formation in solutions of polyacid/surfactant complexes // J. Phys. Chem. C. 2009. Vol.113, № 14. P. 5664–5671.156. Steffe J.F., Ph D., Press F. Rheological Methods in // Agricultural Engineering. 1994. Vol.23, № 2. 249-250 p.157. Langevin D. Surface shear rheology of monolayers at the surface of water // Adv. ColloidInterface Sci. 2014.
Vol. 207, № 1. P. 121–130.158. Pelipenko J., Kristl J., Rošic R., Baumgartner S., Kocbek P. Interfacial rheology: anoverview of measuring techniques and its role in dispersions and electrospinning. // ActaPharm. 2012. Vol. 62, № 2. P. 123–140.159. Krägel J., Derkatch S.R. Interfacial shear rheology // Curr. Opin. Colloid Interface Sci.2010. Vol. 15, № 4.
P. 246–255.160. Derkach S.R., Krägel J., Miller R. Methods of measuring rheological properties ofinterfacial layers (Experimental methods of 2D rheology) // Colloid J. 2009. Vol. 71, №1. P. 1–17.161. Miller R., Wüstneck R., Krägel J., Kretzschmar G. Dilational and shear rheology ofadsorption layers at liquid interfaces // Colloids Surfaces A Physicochem. Eng. Asp. 1996.Vol. 111, № 1–2. P. 75–118.162. Ivanov I.B., Danov K.D., Ananthapadmanabhan K.P., Lips A. Interfacial rheology ofadsorbed layers with surface reaction: On the origin of the dilatational surface viscosity //Adv.
Colloid Interface Sci. 2005. Vol. 114–115. P. 61–92.163. Langevin D. Rheology of Adsorbed Surfactant Monolayers at Fluid Surfaces // Annu. Rev.Fluids Mech. 2014. Vol. 46. P. 47–65.164. Ochowiak M., Broniarz-Press L., Rozanski J. Rheology and Structure of Emulsions andSuspensions // J. Dispers. Sci. Technol. 2012. Vol. 33, № 2.
P. 177–184.165. Weaire D. The rheology of foam // Curr. Opin. Colloid Interface Sci. 2008. Vol. 13, № 3.P. 171–176.166. Langevin D. Influence of interfacial rheology on foam and emulsion properties // Adv.Colloid Interface Sci. 2000. Vol. 88, № 1–2.
P. 209–222.167. Fuller G.G. Rheology of Mobile Interfaces // Rheol. Rev. 2003. Vol. 2003. P. 77–123.168. Fischer P., Pollard M., Erni P., Marti I., Padar S. Rheological approaches to food systems// Comptes Rendus Phys. 2009. Vol. 10, № 8. P. 740–750.169. Borwankar R.P., Case S.E.
Rheology of emulsions, foams and gels // Curr. Opin. Colloid129Interface Sci. 1997. Vol. 2, № 6. P. 584–589.170. Vandewalle N., Caps H., Delon G., Saint-Jalmes A., Rio E., Saulnier L., Adler M., Biancea L., Pitois O., Addad S.C., et al. Foam stability in microgravity // J. Phys. Conf. Ser.2011. Vol. 327. P. 1–8.171. Fischer P., Windhab E.J. Rheology of food materials // Curr. Opin. Colloid Interface Sci.2011. Vol.
16, № 1. P. 36–40.172. Gibbs J.W. On the Equilibrium of Heterogeneous Substances // Trans. Connect. Acad.1876. Vol. 3. P. 108-248-524.173. Stenvot C., Langevin D. Study of viscoelasticity of soluble monolayers using analysis ofpropagation of excited capillary waves // Langmuir. 1988. Vol. 4, № 5. P. 1179–1183.174. Noskov B.A., Akentiev A.V., Bilibin A.Y., Zorin I.M., Miller R. Dilational surfaceviscoelasticity of polymer solutions // Adv. Colloid Interface Sci. 2003. Vol.
104. P. 245–271.175. Rossetti D., Ravera F., Liggieri L. Effect of tea polyphenols on the dilational rheology ofhuman whole saliva (HWS): Part 2, polyphenols–HWS interaction // Colloids Surfaces BBiointerfaces. 2013. Vol. 110. P. 474–479.176. Mikhailovskaya A.A., Noskov B.A., Lin S.Y., Loglio G., Miller R. Formation ofprotein/surfactant adsorption layer at the air/water interface as studied by dilationalsurface rheology // J. Phys.
Chem. B. 2011. Vol. 115, № 33. P. 9971–9979.177. Milyaeva O.Y., Noskov B.A., Akentiev A. V., Lin S.-Y. Dynamic surface elasticity of themixed solutions of bovine serum albumin and synthetic polyelectrolytes // MendeleevCommun. 2014. Vol. 24, № 5. P. 264–265.178. Yazhgur P.A., Noskov B.A., Liggieri L., Lin S.Y., Loglio G., Miller R., Ravera F.Dynamic properties of mixed nanoparticle/surfactant adsorption layers // Soft Matter.2013. Vol. 9, № 12. P. 3305–3314.179.
Buzza D.M.A., Jones J.L., McLeish T.C.B., Richards R.W. Theory of surface lightscattering from a fluid–fluid interface with adsorbed polymeric surfactants // J. Chem.Phys. 1998. Vol. 109, № 12. P. 5008–5024.180. Носков Б. А., Быков А. Г. Дилатационная поверхностная реология раствороввысокомолекулярных соединений // Успехи Химии. 2015. Vol. 84, № 6.
P. 634–652.181. Noskov B.A., Loglio G. Dynamic surface elasticity of surfactant solutions // ColloidsSurfaces A Physicochem. Eng. Asp. 1998. Vol. 143, № 2–3. P. 167–183.130182. Lucassen J., Hansen R.S. Damping of waves on monolayer-covered surfaces // J. ColloidInterface Sci. 1967. Vol. 23. P.
319–328.183. Sarrazin P., Chaussy D., Vurth L., Stephan O., Beneventi D. Surfactant (TTAB) Role inthe Preparation of 2,7-Poly(9,9-dialkylfluorene- co -fluorenone) Nanoparticles byMiniemulsion // Langmuir. 2009. Vol. 25, № 12. P. 6745–6752.184. Ertekin A., Kim Y., Kausch C.M., Thomas R.R.
Adsorption properties ofoligo(fluorooxetane)-b-poly(ethylene oxide)-b-oligo(fluorooxetane) triblock copolymersat the air–water interface: Comparison of hydroxyl and acetate end groups // J. ColloidInterface Sci. 2009. Vol. 336, № 1. P. 40–45.185. Sasaki M., Yasunaga T., Satake N., Ashida M. Kinetic studies on double relaxation ofsurfactant solutions using a capillary wave method // Bull. Chem. Soc. Japan. 1977. Vol.50, № 12. P. 3144–3148.186.
Noskov B.A. Adsorption from micellar solutions // Adv. Colloid Interface Sci. 2002. Vol.95. P. 237–293.187. de Gennes P.G. Scalling Concepts in Polymer Physics. London: University Press, 1979.188. Doi M., Edwards S.F. The Theory of Polymer Dynamics. Oxford: Clarendon Press, 1986.189. Ritacco H., Cagna A., Langevin D. Oscillating bubble measurements of the compressionviscoelasticity of mixed surfactant–polyelectrolyte surface layers // Colloids Surfaces APhysicochem. Eng.
Asp. 2006. Vol. 282–283. P. 203–209.190. Bhattacharyya A., Monroy F., Langevin D., Argillier J.-F. Surface Rheology and FoamStability of Mixed Surfactant−Polyelectrolyte Solutions // Langmuir. 2000. Vol. 16, №23. P. 8727–8732.191. Ritacco H., Kurlat D., Langevin D. Properties of Aqueous Solutions of Polyelectrolytesand Surfactants of Opposite Charge: Surface Tension, Surface Rheology, and ElectricalBirefringence Studies // J. Phys.
Chem. B. 2003. Vol. 107, № 34. P. 9146–9158.192. Bykov A.G., Lin S.-Y., Loglio G., Miller R., Noskov B.A. Dynamic surface properties ofpolyethylenimine and sodium dodecylsulfate complex solutions // Colloids Surfaces APhysicochem. Eng. Asp. 2010. Vol. 367, № 1–3. P. 129–132.193. Babak V.G., Auzely R., Rinaudo M. Effect of Electrolyte Concentration on the DynamicSurface Tension and Dilational Viscoelasticity of Adsorption Layers of Chitosan andDodecyl Chitosan // J. Phys. Chem.
B. 2007. Vol. 111, № 32. P. 9519–9529.194. Babak V.G., Desbrières J., Tikhonov V.E. Dynamic surface tension and dilational131viscoelasticity of adsorption layers of a hydrophobically modified chitosan // ColloidsSurfaces A Physicochem. Eng. Asp. 2005. Vol. 255, № 1–3. P. 119–130.195. Zhang J., Thomas R., Penfold J. Interaction of oppositely charged polyelectrolyte–ionicsurfactant mixtures: adsorption of sodium poly(acrylic acid)–dodecyl trimethylammonium bromide mixtures at the air–water interface // Soft Matter. 2005.
