A fluorescent probe study of micceille like cluster formation in aqueous solutions of hydrophobically mod?fled poly(ethylene oxide). Yekta A., Duhamel J., Brochard P., - Adiwidjaja H., Winnik M. 26, 1993, Macromolecules, p. 1829.
Nanoscale confinement and temperature effects Qn associative polymers in thin films:
study of a telechelic, pyrene-lebeledpoly(dimethylsiloxane). Kim S., Torkelson J. 2002, Macromolecules, Vol. 35, p. 5943.
Impact
of
end-group association and main-chain hydration Qn the thermosensitive properties of hydrophobically modified telechelic Poly(N-isopropylacrylamides) in water. Tanaka F., Winnik F. 2006, Macromolecules, Vol. 39, p. 341.Phase equilibria in solution of associating telechelic polymers: rings vs reversible - network. Semenov A., Nyrkova 1., Cates M. 1995, Macromolecules, Vol. 7879, p.
7879.
Temperature response of self-assembled micelles of telechelic hydrophobically modfled poly(2-alky1-2-oxasolines) in water. Obeid R., Maltseva E., Thunemann F., Tanaka K., Winnik F. 2009, Macromolecules, Vol. 42, p. 2204.
Effect of polydispersity on fluorescence quenching in micelles formed by telechelic associative polymers. English R., Ratcliffe 1., Blanchard R., Parsons B. 18, 2007, Macromolecules, Vol. 40, p. 6699.
Synthesis and thermoassociative properties in aqueous solution of grafi copolymers containing poly (N- isopropylacrylamide) side chains. Durand A., Hourdet D. 1999, PoIer, Vol. 40, p. 4941.
Influence of the hydrophobe structure Qn composition, microstructure, and rheology in associating polyacrylamides prepared by micellar copolymerization. Volpert E., Selb J., Candau F. 1996, Macromolecules, Vol. 26, pp. 1452-1463.
Viscoelastic behavior
of
semidilute solutionsof
multisticker polymer chains. Jiménez- Regalado E., Selb J., Candau F. 1999, Macromolecules, Vol. 32, p. 8580.Effect
of
surfactant Qn the viscoelastic behaviorof
semidilute solutionsof
multisticker associatingpolyacrylamides. Jiménez E., Selb J., Candau F. 12, 2000, Langmuir, Vol.38,p. 8611.
Associating behaviour
of
polyacrylamides hydrophobically modfled with dehexylacrilamide. Volpert E., Selb J., Candau F. 5, 1998, Polymer, Vol. 39, p. 1025.A new srictly alternating comblike amphiphilic polymer based on PEG. 1. Synthesis and associative behavior of a low molecular weight sample. Heintz C., Pendharkar S., - Prud'homme R., Kohn. 1999, Macromolecules, Vol. 32, p. 6652.
Study of three dzfferentfamilies of water-soluble copolymers: synthesis characterization and viscoelastic behavior of semidilute solutions of polymers prepared by solution polymerization. Jiménez-Regalado E., Cardenas-Pliego G. Pérez-Álvarez M., Hernández-Valdez Y. 2004, Polymer, Vol. 45, p. 1993.
Interaction of hydrophobically modfied(Hydroxyethyl)cellulose with various added surfactants. Tanaka R., Meadows J., Williams P., Philips G. 1992, Macromolecules, Vol. 25, p. 1304.
Association of hydrophobic polymers in water: fluorescence studies with labeled (hydroxipropyl)cellulose. Winnik F. 1989, Macromolecules, Vol. 22, p. 734.
Influence of substitution pattern on solution behaviour of hydroxypropylmethylcellulose.
Viridn A., Wittgren B., Andersson T., Abrahmsn-Alami S., Larsson A. 3, 2009, Biomacromolecules, Vol. 10, p. 522.
Synthesis and rheological properties of responsive thickeners based on polysacharides architectures. Karakasyan C., Lack S., Brunel F., Maingaul P., Hourdet P. 9, 2008, Biomacromolecules, Vol. 9, p. 2419.
Solubilization of phosphatidycholing vesicles by hidrophobically modfied poli(acrylamide)-co-(acrylic acid): effects
of
acrylic acid fraction and polymer concentration. Fan Y., Han Y., Wang Y. 34, 2007, J. Phys. Chem. B, Vol. 111, p.10123.
Reversible thermothickening of aqueous polymer solutions. Hourdet D., L'Alloret F., Audebert R. 1994, Polymer, Vol. 35, p. 2624.
Pressure effects on the aggregation of poly(N-isopropylacrylamide) and poly(N- isopropylacrylamide-co-acrylic acid) in aqueous solutions. Otake K., Karaki R., Ebina T., Yókoyama Ch., Takahashi S. 1993, Macromolecules, Vol. 26, p. 2194.
Rheology and dynamics of associative polymers in shear and extension: theory and experiments. Tripathi A., Tam K., McKinley G. 2006, Macromolecules, Vol. 39, p.
1981.
Self-dffusion coefficients of hydrophobic ethoxilated urethane associating polymers using pulsed-gradient spin-echo nuclear magnetic resonance. Rao B., Uemura Y., Dyke L., Macdonald P. 28, 1995, Macromolecules, p. 531.
Capítulo VIII Bibliografia
Rheological behavior of bigrafied hydrophobically modified polyelectrolite. Paillet S., Grassl B., Khoukh A., Torres M.,Desbri J., Müller A. 13, 2009, Macromolecules, Vol. 42, p. 4914.
Influence of binary surfactant mixtures an the rheology of associative polymers solutions.
Taiwar S., Scanu L., Raghavan S., Khan S. 15, 2008, Langmuir, Vol. 24, p. 7797.
Copolymers of acrylamide and surfactant macromonomers: synthesis and solution properties. Schulz D., Kaladas J., Maurer J., Bock J., Pace S. Schulz W. 1987, Polymer, Vol. 28, p. 2110.
Improved reverse thermo-responsive polymeric system. Cohn D., Sosnik A., Levy A.
2003, Biomaterials, Vol. 24, p. 3707.
Copolymerization of acrilamide and a hydrophobic monomer in a aqueous micellar medium: Effect of the surfactant on the copolymer microstructure. Biggs. S., Hill A., Selb J., Çandau F.. 1992, J. Phys. Chem., Vol. 96, p. 1505.
Water-soluble copolymers: 2. Synthesis and aqueous solution behaviour of associative acrylamide/N-alkilaciylmide copolymers. Mc Cormick C., Johnson C. 1988, Polymer, Vol. 29, p. 731.
Synthesis and characterization of a hydrophobically modiejied copolymer of N- Isopropilaciylamide and glycinyl acrylamide. Spafford M., Polozova A., Winnik F.
1998, Macromolecules, Vol. 31, p. 7099.
Preparation of hydrophobic association polyacrylamides in a new micellar copolimerization system and its hydrophobically associative property. Gao B., Guo H., Wang J., Zhang Y. 8, 2008, Macromolecules, Vol. 41, p. 2890.
Swelling of Thin Films. 1. Acrylamide-N-Isopropylacrylamide Copolymers in Water.
Chiklls, C., Grasshoff J. M. 1970, Journal of Polymer Science, Vol. 8, p. 1617.
Synthesis, characterization and rheological properties as a function of temperature, of three associative polymers with different microstructure obtenied by solution polymerization. Rico- Valverde J., Jiménez-Regalado E. 2009, Polymer Bulletin, Vol.
62,p.
57.
Tesis doctoral. Sintesís y caracterización de polírneros asociativos hidrosolubles con buenás propiedades espesantes tanto a bajas como a altas temperaturas. T., Lara- Ceniceros. Saltillo, Coahuila, México: s.n., 2008, Centro de Investigación en Química Aplicada.
Modulation of hydrophobic interactions in associative polymers using inclusion compound and surfactants. Abdala A., Tonelli A., Khan S. 2003, Macromolecules, Vol. 36, p. 7833.
Correlations between the viscoelastic behavior of pyrene-labeled associative polymer and the associations oftheirfluorescent hydrophobes. Telmo J., Prazeres V., Duhamel J. 2005, J. Phys. Chem. B., Vol. 109, p. 17406.
Hydrophobically associating polymers and their interactions with rod-like micelles.
Peiffer, D. 1990, Polymer, Vol. 31, p. 2353.
47. Rheological properties of semidilute hydrofobically modified alkali-soluble emulsion polymer in sodium dodecylsulfate and salt solutions. Tan H., Tam K., Jenkins R. 13, - 2000, Langmuir, Vol. 16, p. 5600.
Rheological properties of model alkali-soluble associative (HASE) Polymers: effect of vaiying hydrophobe chain length. Tirtaatmadja V., Tam K., Jenkins R. 1997, Macromolecules, Vol. 30,p. 3271.
Association
of
a hydrophobically modifledpolyelectrolyte and biock copolymer sollowed by fluorescence techniques. Costa T., Schillen K., Miguel M., Lmdman B., Melo J.18, 2009, J. Phys. Chem. B, Vol. 113, p. 6194.
Synthesis, characterization and rheological propierties
of
three diferent associative polymers obtained by micellar polymerization. Lara-Ceniceros A., Rivera Vallejo C., Jimenez-Regalado E. 2007, Polymer Bulletin, Vol. 58, p. 425.Tesis Doctoral. Síntesis y caracterización de polímeros asociativos combinados utilizando iniciadores hidrófobos di-sustituidos en polimerización en solución. V., Gonzáles-Coronel. Saltillo, Coahuila, México: s.n., 2007, Centro de Investigación en Química Aplicada.
Impact
of
end-group association and main-chain hydration on the thermosensitive propertiesof
hydrophobically modfled telechelic poly(N-isopropylacylamides) in water.Kujawa P., Segui F., Shaban S., Diab Ch., Okada Y., Tanaka F., Winnik F. 2006, Macromolecules, Vol. 39,pp. 341.
Synthesis and linear viscoelasticity offluorinated hydrophobically modiefied ethexilated urethanes (F-HEUR). Cathébras N., Collet A., Viguier M. 1998, Macromolecules, Vol. 31,pp. 1305.
Interaction between fluorocarbon end-capped poly(ethylene oxide). Liao D., Dai S., Tam C. 8, 2007, Macromolecules, Vol. 40, p. 2936.
Capítulo VIII Bibliografia
Thermoviscosj5'ing polymers, their synthesis and their uses in particular in the oil industry. Hourdet D., L'Alloret F., Audebert R. 0583814A1 European Patent Application, Agosto 21, 1993.
Change in solvatation ofpoly(N,N-diethylacrylamide)during phase transition on aqueous Solution as observed by IR spectroscopy. Maeda Y., Nakamura T., Ikeda 1.
Macromolecules, 2002, Vol. 35, p. 10172.
The preparation and physico-chemical propieties ofpoly (N- ethylacrylamide) microgeis.
Lowe J., Chowdhry B., Parsonage J., Snowden M. Macromolecules, 5, 1998, Vol. 39, p. 1207.
Fluorescence studies of aqueous solutions of poly(N-isopropylacrylamide) below and aboye their LCST Winnik F. 1990, Macromolecules, Vol. 23, p. 233.
Non-Gaussian elasticity of swollen po/y (N-isopropylaciylamide) gels at high charge densities. Gundogan N., Melekaslan D., Okay 0. 2003, European Polymer Joumal, Vol. 39, p. 2209.
Temperature-controlled behavior of self assembly gene deliveny vectors based on comp/ex of DNA with poly(L-lisine)-g-poly(N-isopropylaciylamide). Oupick D., Reschel T., Konak C., Oupická L. 18, 2003, Macromolecules, Vol. 36, p. 6863.
Associative grafty copolymers comprising a poly(N-isopropylacrylamide) backbone and end-functionalized polyoxyethylene side chains. Synthesis and aqueous solution properties. Berlinova 1., Dimitrov 1., Vladimirov N., Samichkov V., Ivanov Y. 2001, Polymer, Vol. 42, pp. 5963.
Fluorescence and EPR studies on the collapse of poly(N-isopropylacrylamide)-g- poly(ethyleneoxide) in water. Virtanen J., Lemmetynen H., Tenhu H. 2001, Polymer, Vol. 42, p. 9487.
A new Strictly Alternating Comblike Amphiphilic Polymer Based on PEG. 2. Associative Behavior of a High Molecular Weight Sample and Interaction with SDS. Heitz C., Prud'homme R., Kohn J. 1999, Macromolecules, Vol. 32, p. 6658.
Water-soluble copolymers. 37. Synthesis and characterization of responsive hydrophobically-modzfled polyelectrolytes. McCormick C., Cummins D. 25, 1992, Macromolecules, p. 1201.
Water-soluble copolymers: 27. Synthesis and aqueous solution behaviour
of
associativa acrylamide/N-alkylacrylamide copolymers. McComick Ch., Nonaka T., Johnson C.1988, Polymer, Vol. 29, pp. 731.
Properties of hydrophobically associating polyacrylamides: influence of the method of synthesis. Hill A., Candau F., Selb J. 1993, Macromolecules, Vol. 26, p. 4521.
Structure and propierties of hydrophobically associating polymer. Bock J., Siano D., Valint Jr., Pace S. 1987, Polym. Mater. Sci. Eng., Vol. 57, pp. 487.
Synthesis and characterization of hydrophobically associatingpolymer. Valint P., Bock Jr., Schulz D. 1987, Polym. Mater. Sci. Eng., Vol. 57, pp. 482.
Effect of surfactants and comonomers on the polymerization of hidrophobically- modzfiedpolyac,ylamide. Peer, W. 1987, Polym. Mater. Sci. Eng., Vol. 57, pp. 492.
Water-soluble polymer. 78. Viscosity and NRETfluorescence studies of pH-responsive twin-tailed associative terpolymers based on acrylic acid and methacrylamide. Smith G., McCormick Ch. 2001, Macromolecules, Vol. 34, p. 918.
Determination of the macromolecular dimensions of hydrophobically modfled polymers by miceliar size exciusion choromatography coupled with multiangle light scattering.
Dupis G., Rigolini J., Clisson G., Rousseau D., Tabary R., Grassi B. 81, 2009, Anal.
Chem, p. 8993.
Scaling behavior of zero shear viscosity
of
hydrophobically modfledpoly(acrylamide)s.Candau F., Jimenez-Regalado E., Selb J. 1998, Macromolecules, Vol. 31, p. 5550.
Highly branched poly(N-isopropylac,ylamide)s with imidazole end groups prepared by radical polymerization in the prescence
of
a styril monomer containing a dithioester group. Carter 5., Hunt B., Rimmer S. 2005, Macromolecules, Vol. 38, p. 4595.NMR Self-dzffusion of associative polymers in aqueous solution: The influence of the hydrocarbon end-chain length on the polymer transport dynamics in single- and Iwo- component mixtures. Abramhsén-Alami S., Stilbs P. 1997, J. Coil Interface Sci., Vol.
l,pp. 137-143.
Copolymers of acrylamide/N-alkylacrilamide in aqueous solution: effects of hydrolysis on hydrophobic interactions. Biggs S., Selb J., Candau F. 1993, Polymer, Vol. 34, pp.
580-59 1.
Rheological properties of associative star polymers in aqueous solutions: effect of hydrophobe lengh and polymer topology. Jankova K., Strandman S., Jarvi P., Torkkeli M., Hietala S., Hvilsted 5., Heikki T. 2009, Macromolecules, Vol. 42, p.
1726.
Synthesis of thermoassociative copolymers. Hourdet D., L'Alloret F., Audebert R. 10, 1997, Polymer, Vol. 38, pp. 2535.
Cap ítulo VIII Bibliografia
Cationic temperature-responsive poly(N-isopropyl acrylamide) graft copolymers: from triggered association to gelation. Liu R., De Leonardis P., Cellesi F., Tireffi N., Saunders B. 14, 2008, Langmuir, Vol. 24, p. 7099.
Fluorescence studies of hydrophobically modfled poly(N-isopropylacrilamides).
Ringsdorf H., Venzmer J., Winnik F. 1991, Macromolecules, Vol. 24, p. 1678.
Phase behavior of poly(N-isopropylacrilamide) in binary aqueous solutions. Costa R., Freitas R. 2002, Polymer, Vol. 43, p. 5879.
NMR. investigation of phase separation in poly(N-isopropylacrylamide)/water solutions. Zeng F., Tong Z., Feng H. 22, 1997, Polymer, Vol. 38, p. 5539.
End group Qn the thermal response of narrow-disperse poly(N-isopropylacrylamide) prepared by atom transfer radical polymerization. Xia Y., Burke N., Stover H. 39, 2006, Macromolecules, Vol. 39 p. 2275
Role of bound water and hydrophobic interaction in phase transition of poiy(N- isopropylacylamide aqueous solution. Cho E., Lee J., Cho K. 2003, Macromolecules, Vol. 36, p. 9929.
Synthesis and solution properties of poly(N-isopropylacrylamide-co- diallyldimethylamonium choride). Deng Y., Pelton Robert. 1995, Macromolecules, Vol. 28, p. 4617.
Thermal micro A TR/FT-IR spectroscopic system for quantitative study of the molecular structure ofpoly (N-isopropylacryalmide) in water. Lin S., Chen K., Run-Chu L. 1999, Polymer, Vol. 40, p. 2619.
Synthse en microémulsion de polymres ioniques stimulables et etude de ieurs propietes en solution aqueuse. O., Braun. Strasbourg, Francia: s.n., 2001, Tésis Doctoral.
Interaction between DMPC liposomes and HM-PNIPAM polymer. Wang Y., Wmnik F., Clarke R. 2003, Biophysical Chemistry, Vol. 104, p. 449.
Thermoassociating poly(Nisopropylaciylamide) A -B-A stereoblock cópolymers. Tenhu H., Noupponen M., Kailiomaki K., Hietala S. 7, 2008, Macromolecules, Vol. 41, p.
2627.
Lower critical solution temperature of linear PNIPAM obtained from a Yukawa potential of polymer chains. Yan L., Zhu Q., Kenkare P. 11, 2000, J. Appl. Polym.
Sci., Vol. 78, p. 1971.
Control of the lower critical solution temperature-type cononsolvency properties of poly(N-isopropylacylamide) in water-dioxane mixures through copolymerisation with - aciylamide. Daikas G., Pagonis K., Bokias G. 2006, Polymer, Vol. 47, p. 243.
Thermally induced gelation
of
poly(acrilamide)grafted with poly(N- isopropylacrilamide): a samil-angle neutron scattering study. Barbier V., Herve M., Sudor J., Brulet A., Hourdet D., Viovy J. 2004, Macromolecules, Vol. 37, p. 5682.Rheology
of
mixed solutionsof
an associating polymer with a surfactant. Why are dfferent surfactants dfferent? Piculeil L., Egermayer M., Sjostrom J. 2003, Langmuir, Vol. 19, p. 3643.Surfactant-dediated modulation
of
hydrophobic interactions in associative polymer solution containing cyclodextrin. Taiwar S., Harding J., Oleson K., Khan S. 2, 2009, Langmuir, Vol. 25, p. 794.Tesis doctoral. Synthes et proprietes rheologiques de copolymeres associaties a parametres moleculaires controles. E.J., Jiménez-Regalado. Strasburg, Francia.: s.n., 2000.
Tesis doctoral. Síntesis y caracterización de copolímeros asociativos combinados mediante copolimerización micelar; estudio de las propiedades reológicas. Lara- Ceniceros. A. Saltillo, Coahuila, México.: s.n., 2006, Centro de Investigación en Química Aplicada.
Tesis de maestría. M., Pérez. Saltillo, Coahuila.: s.n., 2002, Facultad de Ciencias Químicas.
Swelling
of
thin films. I. Aciylamide-N-isopropylacrylamide copolymers in water.- Chiklis, C., GrasshoffJ. M. 1970, Journal of Polymer Science, Vol. 8, p. 1617.
Hydrophobically associating polyacrylamides and their partially hydrolyzed derivatives prepared by post-modflcation. 2. Properties
of
non-hydrolyzed polymers in pure water and brine. Feng Y., Billon L., Grassl B., Bastiat G., Borisov O., Francois J. 2005, Polymer, Vol. 46, p. 9283.http://webdelprofesor.ula.re/ingenieria/mabeLImaterias/sistemasdispersos/reologia.
pdf.
Do fluorescent, hydrocarbon and polycyclic aromatic groups intermingle? Solution properties