Диссертация (1150096), страница 19
Текст из файла (страница 19)
Vivien L., Riehl D., Hache F., and Anglaret E. Nonlinear scattering origin incarbon nanotube suspensions //J. Nonlinear. Opt. Phys. Mater. 2000, V.9, P.297 – 307.131. Vivien L., Riehl D., Lancon P., Hache F., and Anglaret E. Pulse duration andwavelength effects on the optical limiting behavior of carbon nanotubesuspensions // Opt. Lett. 2001, V. 26, P.
223 – 225.132. Jin Z.X., Huang L., Goh S.H., Xu G., and Ji W. Size-dependent optical limitingbehavior of multi-walled carbon nanotubes //Chem. Phys. Lett. 2002, V. 352, P.328 – 333.133. Chen Y., Lin Y., Liu Y., Doyle J., He N., Zhuang X., Bai J., and Blau W.J.Carbon nanotube-based functional materials for optical limiting // J.
Nanosci.Nanotechnol. 2007, V. 7, P. 1268 – 1283.120134. McEwan K.J. and Madden P.A. Transient grating effects in absorbing colloidalsuspensions // J. Chem. Phys. 1992, V. 97, P. 8748 – 8759.135. Wang Q., Yu G., Deng Y., Price C., Booth C. Eluent gel permeationchromatography: Application to the association of block copolymer F127 inaqueous solution // Eur. Polym.
J. 1993, V. 29, P. 665 – 669.136. Jeong S.H., Kim K.K., Jeong S.J., An K.H., Lee S.H., Lee Y.H. Opticalabsorption spectroscopy for determining carbon nanotube concentration insolution // Synthetic Metals. 2007, V. 157, P. 570 – 574.137. Izumo N. Physical quantity measured by a vibration viscometer (Re: JCSSStandardization of Viscosity) // Article for the 23rd Sensing Forum. Tsukuba,JAPAN: Tsukuba Center Inc. 2006.138. Wunderlich B. Thermal analysis // New York: Academic Press.
1991, P. 137 –140.139. Sen K., Samaddar P. Organized polyvinyl alcohol assemblies: Eligibleluminescent centers for species dependent metal sensing // Journal of MolecularLiquids. 2014, V. 200, P. 369 – 373.140. Вережников В.Н. Практикум по коллоидной химии поверхностноактивных веществ // изд. ВГУ, 1984.141. Nagarajan R., Ruckenstein E. Theory of Surfactant Self-Assembly: A PredictiveMolecular Thermodynamic Approach // Langmuir. 1991, V. 7, №12, P.
2934 –2969.142. Ohshima H., Healy T.W., White L.R. Accurate analytic expressions for thesurface charge density/surface potential relationship and double-layer potentialdistribution for a spherical colloidal particle // Journal of Colloid and InterfaceScience. 1982, V. 90, №1, P. 17–26.143. Абрамзон А.А. Поверхностно-активные вещества. Справочник. // изд.Химия, 1979.144. Sengwa R.J., Kaur K. Dielectric dispersion studies of poly(vinyl alcohol) inaqueous solutions // Polymer International.
2000, V. 49, P. 1314 – 1320.121145. Berne B.J., Pecora R. Dynamic Light Scattering // New York: Courier DoverPublications. 2000.146. Obraztsova E.D., Fujii M., Hayashi S., Lobach A.S., Vlasov I.I., Khomich A.V.,Timoshenko V.Yu., Wnseleers W., Goovaerts E. In: NanoengineeredNanofibrous Materials. NATO Science Series II: Mathematics, Physics andChemistry // Ed. Guceri Y.G. S., Kuznetsov V.
Dordrecht: Kluwer AcademicPublisher. 2004 – V. 169.147. Wang J. and Blau W.J. Solvent Effect on Optical Limiting Properties of SingleWalled Carbon Nanotube Dispersions // J. Phys. Chem. C. 2008, V.112, P.2298–2303.148. Ben-David O., Nativ-Roth E., Shvartzman-Cohen R., Gottlieb M. Rheologicalinvestigation of single-walled carbon nanotubes – induced structural ordering inCTAB solutions // Soft Matter. 2009, V.
5, P. 1925 – 1930.149. Lekkerkerker H.N., Tuinier R. Colliods and the depletion interaction // Berlin:Springer, 2011 – V. 833.150. Руцков А.П. Краткий курс коллоидной химии // Ленинград: ГХИ. 1958.151. Li H.Y., Chen H.Z., Xu W.J., Yuan F., Wang J.R., Wang M. Polymerencapsulated hydrophilic carbon black nanoparticles free prom aggragation //Colloid. Surf.
A: Physicochem. Eng. Aspects, 2005, V. 254, 173-178.152. Zhang M.Q., Rong M.Z. Self-healing polymers and polymer composites // NewYork: Wiley. 2011.153. Tatiya P.D., Mahulikar P.P., Gite V.V. Designing of polyamidoamine-basedpolyurea microcapsules containing tung oil for anticorrosive coatingapplications // J.
Coat. Technol. Res. 2016, V.13, P. 715 – 726.154. Hernández F.E., Shensky III W., Cohanoschi I., Hagan D.J., and Van StrylandE.W. Viscosity dependence of optical limiting in carbon black suspensions //Appl. Opt. 2002, V. 41, P. 1103 – 1107.155. Кленин В.И., Кленина О.В., Колчанов В.А., Шварцбурд Б.И., ФренкельС.Я.Термодинамическаяприродаметастабильностирастворов122поливинилового спирта // Высокомолекулярные соединения.
1974, V. (А)16, P. 2531 – 2543..
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