Aqueous dispersions properties of cross-linked polymers based on N-vinylcaprolactam
Abstract
Nanoparticles of cross-linked poly-N-vinylcaprolactam, stabilized by high molecular emulsifier -
hydrophobically modified polyacrylamide monohelic type in oil-in-water emulsion were synthesized.
Particle sizes of obtained water dispersion were defined by dynamic light scattering and transmition
electronic microscopy. It was found that synthesized dispersions are stable in time. Electrokinetic potential
were measured by laser Doppler microelectrophoresis method, it have negative value, which indicates on
negative charge of nanoparticle surface, caused by hydrolysis of amide groups to carboxylic. Wherein
electrokinetic potential depends on pH medium. It was established, the influence of inorganic salts
concentration on synthesized dispersions aggregative stability. It was shown, that threshold of rapid
coagulation is much higher than in polymer dispersions synthesized with low-molecular emulsifiers. It was
found that the stability factors are structure-mechanical and electrostatic barriers.
Downloads
References
thermally responsive polyelectrolyte latices with
low molar mass organic molecules studied by
light scattering, Macromolecules, 1998, V. 31,
pp. 1590.
2. Lowe T.L., Virtanen J., Tenhu H.
Hydrophobically modified responsive polyelectrolytes,
Langmuir, 1999, V. 15, pp. 4259.
3. Kirsh Yu.E. Poli-N-vinilpirrolidon i drugie
poli-N-vinilamidy, M. Nauka, 1998, 252 p.
4. Gritskova I.A., Papkov V.S.,
Krasheninnikova I.G. e al. Heterophase
Polymerization of Styrene in the Presence of
Organosilicon Compounds of Various Natures,
Polymer Science Series A., 2007, V. 49, No 3,
pp. 235-241.
5. Gritskova I.A., Kopylov V.M., Simakova
G.A. et al. Polymerization of styrene in the presence
of organosilicon surfactants of various
natures, Polymer Science Series B., 2010, V.
52, No 9-10, pp. 542-548.
6. Prokopov N.I., Gritskova I.A., Kiryutina
O.P. et al. The mechanism of surfactant-free
emulsion polymerization of styrene, Polymer
Science Series B., 2010, V. 52, No 5-6,
pp. 339-345.
7. Laukkanen A., Wiedmer S.K., Varjo S. et
al. Stability and thermosensitive properties of
various poly-N-vinylcaprolactam microgels,
Colloid Polym Sci., 2002, V. 280, pp. 65-70.
8. Kushhev P.O., Kuznecov V.A.,
Blagodatskih I.V. Tez. dokl. VI Vserossiĭskoj
Karginskoj konferencii «Polimery-2014» M.
2014, V. 1, pp. 112.
9. Ivanova E.M. Sintez gidrofobno modifitsirovannogo
poliakrilamida v obratnykh
miniemul'siyakh: dis. kand. khim. nauk; INEOS
RAN, Moskva, 2007, pp.116.
10. Blagodatskikh I., Tikhonov V., Ivanova E.
et al. New Approach to the Synthesis of Polyacrylamide
in Miniemulsified Systems,
Macromol. Rapid Commun., 2006, V. 27,
pp. 1900-1905
11. Abramzon A.A. Poverhnostno-aktivnye
veshhestva, L., 1981, 252 p.
12. Nejman R.Je. Ocherki kolloidnoj himii
sinteticheskih lateksov, Voronezh. izd-vo VGU,
1980, 236 p.