Диссертация (1103447), страница 16
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Macromolecules 1997, 30, 2343–2349.[73] Njikang, G.N.; Cao, L.; Gauthier, M. Self-Assembly of ArborescentPolystyrene-graft-poly(ethylene oxide) Copolymers at the Air/Water Interface.Macromol. Chem. Phys. 2008, 209, 907–918.111[74] Njikang, G.N.; Cao, L.; Gauthier, M. Pressure- and TemperatureInduced Association of Arborescent Polystyrene-graft-poly(ethylene oxide)Copolymers at the Air-Water Interface.
Langmuir 2008, 24, 12919–12927.[75] Peleshanko, S.; Jeong, J.; Gunawidjaja, R.; Tsukruk, V.V. AmphiphilicHeteroarm PEO-b-PSm Star Polymers at the Air−Water Interface: Aggregationand Surface Morphology. Macromolecules 2004, 37, 6511–6522.[76] Perelstein, O.E.; Ivanov, V.A.; Möller, M.; Potemkin, I.I. Designed ABCopolymers as Efficient Stabilizers of Colloidal Particles.
Macromolecules 2010,43, 5442–5449.[77] Potemkin, I.I.; Palyulin, V.V. Comblike Macromolecules. Polym. Sci.Ser. A 2009, 51, 123–149.[78] Birshtein, T.M.;Borisov, O.V.;Zhulina, E.B.;Khokhlov, A.R.;Yurasova, T.A. Conformations of Comb-like Macromolecules. Polym. Sci. USSR1987, 29, 1293–1300.[79] Fredrickson, G.H. Surfactant-Induced Lyotropic Behavior of FlexiblePolymer Solutions. Macromolecules 1993, 26, 2825–2831.[80] Potemkin, I.I.;Khokhlov, A.R.;Reineker, P.StiffnessandConformations of Molecular Bottle-brushes Strongly Adsorbed on a Flat Surface.Eur.
Phys. J. E 2001, 4, 93–101.[81] Potemkin, I.I.; Popov, K.I. Effect of Grafting Density of the SideChains on Spontaneous Curvature and Persistence Length of 2D Comb-likeMacromolecules. J. Chem. Phys. 2008, 129, 124901.[82] Potemkin, I.I.;Khokhlov, A.R.;Prokhorova, S.A.;Sheiko, S.S.;Möller, M.; Beers, K.L.; Matyjaszewski, K. Spontaneous Curvature of Comb-LikePolymers at a Flat Interface.
Macromolecules 2004, 37, 3918–3923.[83] Sheiko, S.S.;Prokhorova, S.A.;Beers, K.L.;Matyjaszewski, K.;Potemkin, I.I.; Khokhlov, A.R.; Möller, M. Single Molecule Rod−Globule PhaseTransition for Brush Molecules at a Flat Interface. Macromolecules 2001, 34,8354–8360.112[84] Sheiko, S.S.; Sun, F.C.; Randall, A.; Shirvanyants, D.; Rubinstein, M.;Lee, H.; Matyjaszewski, K. Adsorption-induced Scission of Carbon-CarbonBonds. Nature 2006, 440, 191–194.[85] Hoogerbrugge, P.J.;Koelman, J.M.V.A.SimulatingMicroscopicHydrodynamic Phenomena with Dissipative Particle Dynamics. Europhys. Lett.1992, 19, 155–160.[86] Español, P.; Warren, P.
Statistical Mechanics of Dissipative ParticleDynamics. Europhys. Lett. 1995, 30, 191–196.[87] Español, P. Dissipative Particle Dynamics with energy conservation.Europhys. Lett. 1997, 40, 631–636.[88] Groot, R.D.; Warren, P.B.
Dissipative Particle Dynamics: Bridging theGap Between Atomistic and Mesoscopic Simulation. J. Chem. Phys. 1997, 107,4423–4435.[89] Groot, R.D.; Madden, T.J. Dynamic simulation of diblock copolymermicrophase separation. J. Chem. Phys. 1998, 108, 8713–8724.[90] Groot, R.D.;Madden, T.J.;Tildesley, D.J.OntheRoleofHydrodynamic Interactions in Block Copolymer Microphase Separation. J. Chem.Phys. 1999, 110, 9739–9749.[91] Quesada-Perez, M.;Maroto-Centeno, J.A.;Forcada, J.;Hidalgo-Alvarez, R.
Gel swelling theories: the classical formalism and recent approaches.Soft Matter 2011, 7, 10536–10547.[92] Yong, X.; Kuksenok, O.; Matyjaszewski, K.; Balazs, A.C. HarnessingInterfacially-Active Nanorods to Regenerate Severed Polymer Gels. Nano Lett.2013, 13, 6269−6274.[93] Fuchslin, R.M.; Fellermann, H.; Eriksson, A.; Ziock, H.J. CoarseGraining and Scaling in Dissipative Particle Dynamics. J. Chem. Phys. 2009, 130,214102.[94] Pagonabarraga, I.;Hagen, M.H.J.;Frenkel, D.Self-consistentDissipative Particle Dynamics Algorithm.
Europhys. Lett. 1998, 42, 377–382.113[95] Yong, X. Modeling the Assembly of Polymer-Grafted Nanoparticles atOil−Water Interfaces. Langmuir 2015, 31, 11458–11469.[96] Tanaka, T. Collapse of Gels and the Critical End Point. Phys. Rev.
Lett.1978, 40, 820–823.[97] Гросберг, А.Ю.Статистическаяфизикамакромолекул/А.Ю. Гросберг, А.Р. Хохлов. – Москва: Наука, 1989. – 344 с.[98] Hua, X.Y.;Rosen, M.J. Dynamic Surface-Tension of AqueousSurfactant Solution: 1. Basic parameters. J. Colloid Interface Sci. 1988, 124, 652–659.[99] Kirsh, Y.E.Water-solublepoly(N-vinylamides)Microstructure,Solvation, Conformational State and Complex Formation in Aqueous Solutions.Prog. Polym. Sci. 1993, 18, 519–542.[100] Neely, B.J.; Wagner, J.; Robinson, R.L.; Gasem, K.A.M. MutualSolubility Measurements of Hydrocarbon-Water Systems Containing Benzene,Tolunene, and 3-Methylpentane. J. Chem. Eng. Data 2008, 53, 165–174.[101] Rudov, A.A.;Patyukova, E.S.;Neratova, I.V.;Khalatur, P.G.;Posselt, D.; Papadakis, C.M.; Potemkin, I.I.
Structural Changes in LamellarDiblock Copolymer Thin Films Upon Swelling in Nonselective Solvents.Macromolecules 2013, 46, 5786–5795.[102] Stenbock-Fermor, A.; Rudov, A.A.; Gumerov, R.A.; Tsarkova L.A.;Böker, A.; Möller, M.; Potemkin, I.I. Morphology-Controlled Kinetics of SolventUptake by Block Copolymer Films in Nonselective Solvent Vapors. ACS MacroLett. 2014, 3, 803–807.[103] Василевская, В.В.
Коллапс полимерных сеток в смешанномрастворителе / В.В. Василевская, В.Р. Рябина, С.Г. Стародубцев, А.Р. Хохлов// Высокомолекулярные соединения. Сер. А. Физика полимеров. – 1989. –№ 31. – С. 713–718.[104] Ye, X.; Li, Zh.-W.; Sun, Zh.-Y.; Khomani, B. Template-Free BottomUp Method for Fabricating Diblock Copolymer Patchy Particles. ACS Nano 2016,10, 5199−5203.114[105] Košovan, P.; Kuldová, J.; Limpouchová, Z.; Procházka, K.; Zhulina,E. B.; Borisov, O. V.
Amphiphilic Graft Copolymers in Selective Solvents:Molecular Dynamics Simulations and Scaling Theory. Macromolecules 2009, 42,6748–6760.[106] Wengermayr, P.; Dockhorn, R.; Sommer, J.-U. Multicore UnimolecularStructure Formation in Single Dendritic–Linear Copolymers under SelectiveSolvent Conditions. Macromolecules 2016, 49, 9215–9227.[107] Birshtein, T.M.; Zhulina, E.B. Scaling Theory of SupermolecularStructures in Block Copolymer-Solvent Systems: 1.
Model of Micellar Structures.Polymer 1989, 30, 170–177.[108] Palyulin, V.V.; Potemkin, I.I. Mixed versus Ordinary Miccels in theDilute Solution of AB and BC Diblock Copolymers. Macromolecules 2008, 41,4459–4463.[109] He, C.; Jin, B.-K.; He, W.-D.; Ge, X.-S.; Tao, J.; Yang, J.; Chen, S.-Q.Solvent Replacement to Thermo-Responsive Nanoparticles from Long-SubchainHyperbranched PSt Grafted with PNIPAM for Encapsulation. J. Polym. Sci.
APolym. Chem. 2013, 51, 2142–2149.[110] Scherzinger, C.; Schwarz, A.; Bardow, A.; Leonhard, K.; Richtering, W.Cononsolvency of poly-N-isopropyl acrylamide (PNIPAM): Microgels versuslinear chains and macrogels. Curr. Opin. Colloid Interface Sci. 2014. 19, 84–94..
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