References
www.aqua.vrn.ru
www.grasys.ru
www.aspect.ru
www.filterprom.ru
www.kerc.ru
A. S. Koroteev and A. V. Desyatov, in Proceedings of the International Scientific and Practical Conference “Technologies and Equipment for Freshening Sea Water as Applied to the Conditions of the Caspian Region,” Aktau, Kazakhstan, 2003, Ed. by A. V. Desyatov (Aktau, 2003).
A. V. Desyatov, A. V. Aseev, O. A. Podymova, et al., Krit. Tekhnol. Membr., No. 3, 18–34 (2007).
V. M. Gryaznov, USSR Patent No. 274 092 (August 27, 1964).
V. M. Gryaznov, Dokl. Akad. Nauk 189, 794–796 (1969).
G. F. Tereshchenko, N. V. Orekhova, and M. M. Ermilova, Krit. Tekhnol. Membr., No. 1(33), 4–20 (2007).
G. F. Tereshchenko, A. A. Malygin, M. M. Ermilova, et al., Katal. Prom-sti (2008) (in press).
Nanotechnology Research Directions: IWGN Workshop Report—Vision for Nanotechnology in the Next Decade, Ed. by M. C. Roco, R. S. Williams, and P. Alivisatos (Springer, New York, 2000; Mir, Moscow, 2002).
P. A. Rebinder and G. I. Fuks, Advances in Colloid Chemistry (Nauka, Moscow, 1973), p. 5 [in Russian].
R. W. Baker, Membrane Technology and Applications, 2nd ed. (John Wiley and Sons, Chichester 2004).
V. I. Zabolotskii and V. V. Nikonenko, Ion Transport in Membranes (Nauka, Moscow, 1996) [in Russian].
B. V. Derjaguin, N. V. Churaev, and V. M. Muller, Surface Forces (Nauka, Moscow, 1985) [in Russian].
N. V. Churaev, Physicochemistry of Mass Transfer Processes in Porous Bodies (Khimiya, Moscow, 1990) [in Russian].
A. N. Filippov and V. M. Starov, Krit. Tekhnol. Membr., No. 1(17), 36–39 (2003).
N. S. Nametkin, A. V. Topchiev, and S. G. Durgaryan, J. Polym. Sci., Part C: Polym. Symp. 2, 1053 (1964).
N. S. Nametkin, V. S. Khotimskii, and S. G. Durgar’yan, Dokl. Akad. Nauk SSSR 166, 1118 (1966).
V. F. Gustov, L. N. Chekalov, O. G. Talakin, et al., Proceedings of the First All-Union Conference on Membranes and Membrane Separation Techniques, Moscow, Russia, 1973 (Moscow, 1973), p. 175 [in Russian].
V. V. Teplyakov, A. L. Evseenko, E. G. Novitskii, and S. G. Durgar’yan, Plastmassy 5, 49 (1978).
J. Bouchilloux, A. Fabre, and A. Faure, USSR Patent No. 638 264 (1970).
Yu. P. Yampol’skii and V. V. Volkov, J. Membr. Sci. 64, 191 (1992).
T. Masuda, E. Isobe, T. Higashimura, and K. Takada, J. Am. Chem. Soc. 105, 7473 (1983).
A. K. Bokarev V. V. Volkov, N. E. Kalyuzhnyi, et al., Dokl. Akad. Nauk 305(1), 117 (1989).
J. Schultz and K.-V. Peinemann, J. Membr. Sci 110, 37 (1996).
T. Masuda, B.-Z. Tang, and T. Higashimura, Polym. J. 18, 565 (1986).
V. V. Volkov, V. S. Khotimsky, and N. A. Platé, in Proceedings of the Fourth International Conference on Pervaporation Processes in the Chemical Industry, Fort Lauderdale, FL, United States, December 3–7, 1989, Ed. by R. Bakish (Bakish Materials, Englewood, NJ, United States, 1989), p. 169.
V. V. Volkov, Izv. Akad. Nauk, Ser. Khim., No. 2, 208 (1994).
V. V. Volkov, Polym. J. 23(5), 457 (1991).
R. Srinivasan, S. R. Auvil, and P. M. Burban, J. Membr. Sci. 86, 67 (1994).
K. Nagai, T. Masuda, T. Nakagawa, et al., Prog. Polym. Sci. 26, 721 (2001).
Yu. P. Yampol’skii, Usp. Khim. 76(1), 66 (2007).
D. Hofman, M. Heuchet, Yu. Yampolskii, et al., Macromolecules 35, 2129 (2002).
V. S. Khotimskii, E. G. Litvinova, V. M. Melekhov, et al., RF Patent No. 1 823 457 (July 30, 1991).
A. A. Surovtsev, N. V. Petrushanskaya, O. P. Karpov, et al., RF Patent No. 2 228 323 (2004).
N. A. Plate, V. S. Khotimskii, and E. G. Litvinova, RF Patent No. 1 690 365 (April 15, 1998).
V. V. Volkov, O. I. Buzin, N. V. Ushakov, et al., RF Patent No. 2 263 691 (November 10, 2005).
D. Syrtsova, O. Shkrebko, V. Teplyakov, et al., Desalination 200, 253 (2006).
P. H. M. Feron, V. V. Volkov, V. S. Khotimsky, et al., NL Patent No. PCT/NL2005/000465.
A. V. Volkov, V. S. Khotimskii, V. V. Parashchuk, et al., RF Patent No. 2 297 975 (April 27, 2007).
M. Modigell, M. Schumacher, V. V. Teplyakov, and V. B. Zenkevich, Desalination 224, 186 (2008).
P. N. Drozdov, E. Yu. Kolotilov, I. V. Vorotynts, et al., Izv. Akad. Inzh. Nauk im. A. M. Prokhorova: Tekhnol. Mater. Kompon. Elektron. Tekh. 7, 61 (2004).
V. V. Volkov, A. G. Fadeev, V. S. Khotimskii, et al., Ross. Khim. Zh. 47(6), 71 (2003).
L. M. Vane, J. Chem. Technol. Biotechnol. 80, 603 (2005).
M. H. V. Mulder and C. A. Smolders, Process. Biochem. (Rickmansworth, UK) 21, 35 (1986).
V. V. Volkov, V. S. Khotimskii, M. B. Gokzhaev, et al., Zh. Fiz. Khim. 71(9), 1556 (1997) [Russ. J. Phys. Chem. 71 (9), 1396 (1997)].
A. G. Fadeev, M. M. Meagher, S. S. Kelley, and V. V. Volkov, J. Membr. Sci. 173, 133 (2000).
A. G. Fadeev, S. S. Kelley, J. D. McMillan, et al., J. Membr. Sci. 214, 229 (2003).
V. V. Volkov, A. G. Fadeev, V. S. Khotimsky, et al., J. Appl. Polym. Sci. 91, 2271 (2004).
www.vladipor.ru
www.horst.ru
V. M. Vorotyntsev, P. N. Drozdov, S. A. Nosyrev, and A. E. Pripisnov, Vysokochist. Veshchestva, No. 4, 137 (1987).
V. M. Vorotyntsev, Yu. P. Kirillov, and P. N. Drozdov, Teor. Osn. Khim. Tekhnol. 37(1), 58 (2003).
P. N. Drozdov, Y. P. Kirillov, E. Y. Kolotilov, and I. V. Vorotyntsev, Desalination 146, 249 (2002).
V. M. Vorotyntsev, Yu. P. Kirillov, and P. N. Drozdov, Teor. Osn. Khim. Tekhnol. 39(4), 420 (2005).
V. M. Vorotyntsev and P. N. Drozdov, Sep. Purif. Technol. 22–23, 367 (2001).
V. M. Vorotyntsev, P. N. Drozdov, I. V. Vorotyntsev, and D. V. Murav’ev, Dokl. Akad. Nauk. 411(4), 496 (2006) [Dokl. Chem. 411 (Part 2), 243 (2006)].
V. M. Vorotyntsev, P. N. Drozdov, and E. Y. Kolotilov, Desalination 149, 23 (2002).
I. V. Vorotyntsev, P. V. Drozdov, D. N. Shablikin, and T. V. Gamajunova, Desalination 200(1–3), 379 (2006).
A. P. Korikov and K. K. Sirkar, J. Membr. Sci 246, 27 (2005).
A. V. Volkov, G. A. Korneeva, and G. F. Tereshchenko, Usp. Khim. 77 (2008) (in press).
A. V. Volkov, D. F. Stamatialis, V. S. Khotimsky, et al., Desalination 199, 251 (2006).
V. V. Parashchuk and A. V. Volkov, Krit. Tekhnol. Membr. 37, 25 (2008).
D. I. Slovetskii and E. M. Chistov, in Proceedings of the International Symposium on Hydrogen Engineering, Moscow, Russia, 2005 (Moscow Institute of High-Power Engineering, Moscow, 2005), p. 175.
D. I. Slovetskii, E. M. Chistov, G. S. Burkhanov, et al., in Proceedings of the Second International Symposium on Hydrogen Engineering, Moscow, Russia, 2007 (Moscow Institute of High-Power Engineering, Moscow, 2007).
D. I. Slovetskii, E. M. Chistov, and N. P. Roshan, Altern. Energ. Ekol., No. 1, 54 (2004).
V. V. Barelko, A. G. Ivanyuk, A. L. Danishevskii, et al., in Proceedings of the Fourth International Symposium “Future Hydrogen Engineering, Nanotechnologies, and Platinum Group Metals in CIS Countries,” Moscow, Russia, 2008 (Moscow State Institute of Radioengineering, Electronics, and Automation (Technical University), Moscow, 2008), p. 34.
Yu. I. Dytnerskii, Membrane Processes for the Separation of Liquid Mixtures (Khimiya, Moscow, 1975) [in Russian].
A. A. Svittsov, Introduction to the Membrane Technologies (DeLi Print, Moscow, 2007) [in Russian].
www.technofilter.ru
V. G. Dzyubenko, Krit. Tekhnol. Membr., No. 23, 21 (2004).
A. I. Bon, V. G. Dzyubenko, V. A. Polyakov, et al., Voda Vodn. Tekhnol., No. 7, 10 (2005).
V. N. Gribkov, B. Gorobets, and D. D. Pokrovskii, RF Patent No. 2 079 349 (May 20, 1997).
V. N. Gribkov, B. Gorobets, and D. D. Pokrovskii, RF Patent No. 2 164 444 (March 27, 2001).
B. R. Gorobets, V. N. Gribkov, and D. D. Pokrovskii, RF Patent No. 2 170 610 (July 20, 2001).
G. V. Grigor’ev, P. N. Martynov, I. V. Yagodkin, et al., Nov. Prom. Tekhnol., No. 3, 44–48 (2004).
A. D. Efanov, P. N. Martynov, N. G. Bogdanovich, et al., in Proceedings of the 11th International Topical Meeting on Nuclear Reactor Thermal-Hydraulics (NURETH-11), Avignon, France, 2005 (Avignon, 2005), pp. 209–223.
G. V. Grigor’ev, P. N. Martynov, and I. V. Yagodkin, in Scientific Session of the Moscow Institute of Engineering Physics: Ultrafine (Nano-) Materials (Moscow Institute of Engineering Physics, Moscow, 2003), Vol. 8, pp. 258–259 [in Russian].
M. I. Magsumov, A. S. Fedotov, M. V. Tsodikov, Ross. Nanotekhnol. 1, 142 (2006).
www.tracpore.ru
B. V. Mchedlishvili, V. V. Berezkin, A. B. Vasil’ev, et al., Kristallografiya 51(5), 906 (2006) [Crystallogr. Rep. 51 (5), 850 (2006)].
V. I. Gol’danskii, E. Ya. Lantsburg, and P. A. Yampol’skii, Pis’ma Zh. Eksp. Teor. Fiz. 21(6), 365 (1975) [JETP Lett. 21 (6), 166 (1975)].
I. G. Kaplan and A. M. Miterev, Khim. Vys. Energ. 19(3), 208 (1985) [High Energy Chem. 19 (3), 165 (1985)].
I. G. Kaplan and A. M. Miterev, Usp. Khim. 55(5), 713 (1986).
I. G. Kaplan and A. M. Miterev, in Advances in Chemical Physics, Ed. by I. Prigogine and S. A. Rice (Wiley Interscience, New York, 1987), Vol. 68, p. 255.
A. M. Miterev, Ross. Khim. Zh. 42(4), 40 (1998).
A. M. Miterev, Usp. Fiz. Nauk 172(10), 1131 (2002) [Phys.—Usp. 45 (10), 1019 (2002)].
A. M. Miterev, Khim. Vys. Energ. 31(3), 197 (1997) [High Energy Chem. 31 (3), 173 (1997)].
R. L. Fleischer, P. B. Price, and R. M. Walker, Nuclear Tracks in Solids: Principles and Applications (University of California Press, Berkeley, CA, United States, 1975), p. 20.
S. A. Durrani and R. K. Bull, Solid State Nuclear Track Detection: Principles, Methods, and Applications (Pergamon, Oxford, 1987; Energoatomizdat, Moscow, 1990).
P. Yu. Apel, Nucl. Tracks Radiat. Meas. 19(1–4), 29 (1991).
R. Spohr, Ion Tracks and Microtechnology (Vieweg, Braunschweig, Germany, 1990), p. 21.
R. Mazzei, O. A. Bernaola, G. Saint Martin, and B. Molinari De Rey, Nucl. Instrum. Methods Phys. Res., Sect. B 9, 163 (1985).
P. Yu. Apel, A. Yu. Didik, L. I. Kravets, and V. I. Kuznetsov, Nucl. Tracks Radiat. Meas. 17, 45 (1990).
R. Mazzei and O. A. Bernaola, Nucl. Instrum. Methods Phys. Res., Sect. B 63, 309 (1992).
D. Fink, K. K. Dwivedi, M. Muller, et al., Radiat. Meas. 32, 307 (2000).
D. I. Svergun, A. V. Semenyuk, L. Yu. Mogilevskii, et al., Kolloidn. Zh. 53, 143 (1991) [Colloid J. 53, 124 (1991)].
A. I. Vilensky, D. L. Zagorski, P. Yu. Apel, et al., Nucl. Instrum. Methods Phys. Res., Sect. B 218, 294 (2004).
A. N. Nechaev, V. V. Berezkin, G. S. Zhdanov, et al., in Track Membranes: Synthesis, Structure, Properties, and Applications, Ed. by P. Yu. Apel’ and B. V. Mchedlishvili (Shubnikov Institute of Crystallography, Russian Academy of Sciences, Moscow, 2004), p. 42 [in Russian].
P. Yu. Apel, I. V. Blonskaya, O. L. Orelovitch, et al., Nucl. Instrum. Methods Phys. Res., Sect. B 209, 329 (2003).
N. A. Rusanova, G. A. Polukarova, and A. N. Nechaev, Gig. Sanit., No. 3 (1988).
V. V. Ovchinnikov, I. A. Belushkina, E. D. Vorobiev, and V. D. Shestakov, Sep. Technol. 2, 106 (1992).
A. V. Desyatov and A. V. Egorov, “A Method for Etching of Fluoropolymer Track Membranes,” RF Patent No. 2 233 196 (July 27, 2003).
A. V. Desyatov, D. Yu. Grafov, I. A. Prokhorov, et al., “Track Membranes Based on Poly(vinylidene fluoride),” in Abstracts of Papers of the All-Russian Scientific Conference “Membranes-2007,” Moscow, Russia, October 4–8, 2007 (Moscow, 2007), p. 181.
A. V. Desyatov, A. L. Golikov, N. N. Kazantseva, and E. V. Grishina, “Comparison of the Strength Characteristics of PETF and PVDF Track Membranes,” in Abstracts of Papers of the All-Russian Scientific Conference “Membranes-2007,” Moscow, Russia, October 4–8, 2007 (Moscow, 2007), p. 183.
A. V. Desyatov, A. V. Egorov, and I. M. Izvol’skii, “A Method for the Fabrication of a Separation Apparatus Used for Separating Particles from Liquid and Gaseous Media and a Technique for Separating Particles from Liquid and Gaseous Media,” RF Patent No. 2310500 (November 20, 2004).
A. V. Desyatov and I. M. Izvol’skii, “Filtration Facility,” RF Patent No. 2 243 022 (December 27, 2003).
Yu. V. Kryukov and A. V. Tikhonov, “A Facility Intended for Filtration of Liquids,” RF Patent No. 2130801 (May 27, 1999).
A. V. Desyatov, “Microfiltration Facilities Used for Purification of Natural and Waste Water,” Konvers. Mashinostr., No. 1, 24–26 (1998).
A. V. Desyatov, D. Yu. Grafov, I. A. Prokhorov, and A. Evdokimova, “Etching Line of the Poly(vinylidene fluoride) (PVDF) Film,” in Abstracts of Papers of the All-Russian Scientific Conference “Membranes-2007,” Moscow, Russia, October 4–8, 2007 (Moscow, 2007), p. 184.
A. B. Yaroslavtsev, V. V. Nikonenko, and V. I. Zabolotskii, Usp. Khim. 72, 438 (2003).
N. P. Gnusin, V. D. Grebenyuk, and M. V. Pevnitskaya, Electrochemistry of Ion-Exchangers (Nauka, Novosibirsk, 1972) [in Russian].
V. A. Shaposhnik and K. Kessore, J. Membr. Sci. 136, 35 (1997).
Ya. M. Kolotyrkin, Usp. Khim. 57, 873 (1988).
O. S. Lenchevskii, Vodosnabzh. Sanit. Tekh., No. 7, 1 (1955).
N. P. Gnusin and V. D. Grebenyuk, Zavod. Lab. 32(10), 1290 (1966).
V. I. Zabolotskii and V. V. Nikonenko, Elektrokhimiya 32(2), 246 (1996) [Russ. J. Electrochem. 32 (2), 223 (1996)].
V. A. Shaposhnik, A. K. Reshetnikova, R. I. Zolotareva, and N. I. Isaev, Zh. Prikl. Khim. (Leningrad) 46(12), 2659 (1973).
V. I. Zabolotsky, V. V. Nikonenko, N. D. Pismenskaya, and A. G. Istoshin, Desalination 108, 179 (1996).
V. A. Shaposhnik and V. I. Vasil’eva, and E. V. Reshetnikova, Elektrokhimiya 36(7), 872 (2000) [Russ. J. Electrochem. 36 (7), 773 (2000)].
V. D. Grebenyuk, Zh. Vses. Khim. O-va. im. D. I. Mendeleeva 32, 648 (1987).
V. A. Shaposhnik, Kinetics of Electrodialysis (Voronezh State University, Voronezh, Russia, 1989) [in Russian].
V. I. Zabolotskii, N. P. Berezina, V. V. Nikonenko, et al., “Development of Electrodialysis in Russia,” Krit. Tekhnol. Membr., No. 4, 6 (1999); http://www.chem.msu.ru/rus/journals/membranes/4/st_1/zabo_tx1.htm.
O. Davtyan, The Problem of Direct Conversion of the Chemical Energy of Fuels into the Electric Energy (Academy of Sciences of the Soviet Union, Moscow, 1947) [in Russian].
G. A. Mesyats and M. D. Prokhorov, “Hydrogen Engineering and Fuel Cells,” Vestn. Ross. Akad. Nauk 74(6), 579–597 (2004) [Herald Russ. Acad. Sci. 74 (4), 377 (2004)].
T. A. Zawodzinski, C. Deronin, S. Radsinski, et al., J. Electrochem. Soc. 140, 1041 (1993).
D. J. Connoly and W. F. Gresham, “Fluorocarbon Vinyl Ether Polymers,” US Patent No. 3282875 (November 1, 1966).
K. A. Mauritz and R. B. Moore, Chem. Rev. 104, 4535 (2004).
www.n-azot.ru
T. I. Garshina and L. P. Markova, in Abstracts of Papers of the All-Russian Conference with the International Participation “Ion Transfer in Organic and Inorganic Membranes,” Tuapse, Krasnodar region, Russia, 2006 (Tuapse, 2006), p. 44.
N. P. Berezina, S. V. Timofeev, and N. A. Kononenko, J. Membr. Sci. 209, 509 (2002).
N. P. Berezina, N. Gnusin, O. Dyomina, and S. Timofeyev, J. Membr. Sci. 86, 207 (1994).
N. P. Berezina, N. A. Kononenko, G. A. Dvorkina, and N. V. Shel’deshov, Physicochemical Properties of Ion-Exchange Materials (Kuban State University, Krasnodar, 1999) [in Russian].
O. A. Demina, N. P. Berezina, T. Sata, and A. V. Demin, Elektrokhimiya 35(8), 1002 (2002) [Russ. J. Electrochem. 35 (8), 896 (2002)].
I. A. Stenina, Ph. Sistat, A. I. Rebrov, et al., Desalination 170, 49 (2004).
A. Glüsen and D. Stolten, Chem. Ing. Tech. 75, 1591 (2003).
D. J. Jones and J. Roziere, in Handbook of Fuel Cells: Fundamentals, Technology, and Applications, Ed by W. Vielstich, H. A. Gasteiger, and A. Lamm, Vol. 3: Fuel Cell Technology and Applications (John Wiley and Sons, New York, 2003), p. 447.
A. B. Yaroslavtsev, Solid State Ionics 176, 2935 (2005).
E. Yu. Voropaeva, I. A. Stenina, G. Yu. Yurkov, and A. B. Yaroslavtsev, Zh. Neorg. Khim. 53 (2008) (in press) [Russ. J. Inorg. Chem. 53 (2008) (in press)].
S. S. Ivanchev, V. G. Barabanov, V. N. Pavlyuchenko, and S. V. Timofeev, in Proceedings of the International Symposium on Hydrogen Engineering, Moscow, Russia, 2005 (Moscow, 2005).
S. S. Ivanchev, L. F. Sokolov, and V. N. Pavlyuchenko, in Proceedings of the Second Congress “Physical Problems in Hydrogen Engineering,” St. Petersburg, Russia, 2004 (St. Petersburg, 2004), pp. 32–83.
S. S. Ivanchev, O. N. Primachenko, V. N. Pavlyuchenko, et al., Zh. Prikl. Khim. 81(7), 1134 (2008) [Russ. J. Appl. Chem. 81 (7), 1134 (2008)].
Ch. Zhou, M. A. Guerra, Z.-M. Qiu, et al., Macromolecules 40, 8695–8707 (2007).
B. R. Ezzell, W. P. Carl, and W. A. Mod, “Low Equivalent Weight Sulfonic Fluoropolymers,” US Patent No. 4, 940, 525 (July 10, 1990).
A. L. Rusanov, D. Yu. Likhachev, and K. Müllen, Usp. Khim. 71(9), 862 (2002).
S. F. Timashev, Physical Chemistry of Membrane Processes (Khimiya, Moscow, 1988; Ellis Horwood, Chichester, United Kingdom, 1991).
W. Y. Hsu and T. D. Gierke, J. Membr. Sci. 13, 307 (1983).
T. D. Gierke, G. E. Munn, and F. C. Wilson, J. Polym. Sci., Polym. Phys. Ed. 19, 1687 (1981).
L. Jones, P. N. Pintauro, and H. Tang, J. Membr. Sci. 162, 135 (1999).
V. A. Trounov, V. T. Lebedev, Yu. S. Grushko, et al., Kristallografiya 52(3), 536 (2007) [Crystallogr. Rep. 52 (3), 512 (2007)].
F. Kh. Chibirova, D. S. Zakhar’in, S. F. Timashev, et al., Zh. Fiz. Khim. 62, 645 (1988).
V. I. Volkov, Yu. M. Popkov, S. F. Timashev, et al., J. Membr. Sci. 180, 1 (2000).
N. P. Berezina, N. A. Kononenko, and Yu. M. Vol’fkovich, Elektrokhimiya 30(3), 366 (1994) [Russ. J. Electrochem. 30 (3), 329 (1994)].
S. L. Gol’dring, Inhomogeneities and Physicochemical Properties of Ion-Exchangers (Mir, Moscow, 1968) [in Russian].
I. Masselin, L. Durand-Bourlier, J.-M. Laine, et al., J. Membr. Sci. 186, 85 (2001).
V. I. Zabolotskii, V. V. Nikonenko, O. N. Kostenko, and O. N. El’nikova, Zh. Fiz. Khim. 67(12), 2423 (1993) [Russ. J. Phys. Chem. 67 (12), 2184 (1993)].
Yu. K. Tovbin and N. F. Vasyutkin, Zh. Fiz. Khim. 67(3), 524 (1993) [Russ. J. Phys. Chem. 67 (3), 471 (1993)].
Yu. K. Tovbin and N. F. Vasutkin, Colloids Surf., A 158, 385 (1999).
T. J. Peckham, J. Schmeisser, M. Rodgers, and S. Holdcroft, J. Mater. Chem. 17, 3255 (2007).
S. S. Ivanchev, “Fluorinated Proton-Conduction Nafion-Type Membranes, the Past and the Future,” Zh. Prikl. Khim. 81(4), 529 (2008) [Russ. J. Appl. Chem. 81 (4), 569 (2008)].
M. Nasef, Eur. Polym. J. 38, 87–95 (2002).
J. Sauk, J. Byun, and H. Kim, J. Power Sources 131, 188–193 (2004).
J. A. Kosek, M. Hamdan, and A. B. LaConti, “Direct Organic Fuel Cell Proton Exchange Membrane and Method of Manufacturing the Same,” US Patent No. 20 040116546 (June 17, 2004).
H. Y. Lee, J. Y. Kim, J. H. Park, et al., J. Power Sources 131, 188–193 (2004).
M. A. Smit, A. L. Ocampo, M. A. Espinosa-Medina, and P. J. Sebastian, J. Power Sources 124, 59–64 (2003).
R. C. McDonald and A. B. LaConti, “Composite Proton Exchange Membrane and Method of Manufacturing the Same,” US Patent 20, 040, 115, 498 (June 17, 2004).
Z. M. Wu, G. Q. Sun, W. Jin, et al., J. Power Sources 167(2), 309–314 (2007).
A. Ainla and D. Brandell, Solid State Ionics 178(7–10), 581–585 (2007).
S. Z. Ren, G. Q. Sun, C. N. Li, et al., J. Membr. Sci. 282(1–2), 450–455 (2006).
H. Kim, M. S. Kang, D. H. Lee, et al., J. Membr. Sci. 304(1–2), 60–64 (2007).
P. P. Kundu, B. T. Kim, J. E. Ahn, et al., J. Power Sources 171(1), 86–91 (2007).
L. Wang, B. L. Yi, H. M. Zhang, et al., J. Power Sources 164(1), 80–85 (2007).
N. P. Berezina, A. A.-R Kubaisi, N. M. Alpatova, et al., Elektrokhimiya 40(3), 333 (2004) [Russ. J. Electrochem. 40 (3), 286 (2004)].
I. A. Stenina, A. A. Il’ina, I. Yu. Pinus, et al., Izv. Akad. Nauk, Ser. Khim. (2008) (in press) [Russ. Chem. Bull. 57 (2008) (in press)].
N. P. Berezina and A. A.-R. Kubaisi, Elektrokhimiya 42(1), 91 (2006) [Russ. J. Electrochem. 42 (1), 81 (2006)].
N. P. Berezina, A. A.-R. Kubaisy, S. V. Timofeev, L. V. Karpenko, J. Solid State Electrochem. 11, 378 (2006).
N. P. Berezina, A. A.-R. Kubaisi, I. A. Stenina, et al., Krit. Tekhnol. Membr. 32, 48 (2006).
B. Smitha, S. Sridhar, and A. A. Khan, J. Membr. Sci. 225(1–2), 63–76 (2003).
J. Y. Li, S. Ichizuri, S. Asano, et al., J. Appl. Polym. Sci. 101(6), 3587–3599 (2006).
J. H. Chen, M. Asano, Y. Mackawa, et al., Electrochem. Solid-State Lett. 9(11), G326–G329 (2006).
Y. F. Lin, C. Y. Yen, C. M. Ma, et al., J. Power Sources 171(2), 388–395 (2007).
B. Bokshtein and A. B. Yaroslavtsev, Diffusion of Atoms and Ions in Solids (Moscow Institute of Steel and Alloys, Moscow, 2005) [in Russian].
O. V. Bushkova, T. V. Sofronova, B. I. Lirova, and V. M. Zhukovskii, Elektrokhimiya 41(5), 537 (2005) [Russ. J. Electrochem. 41 (5), 468 (2005)].
O. V. Bushkova, I. P. Koryakova, B. I. Lirova, et al., Dokl. Akad. Nauk 407(4–6), 634 (2006) [Dokl. Phys. Chem. 407 (Part 2), 95 (2006)].
Yu. A. Dobrovol’skii, A. V. Pisareva, L. Leonova, and A. I. Karelin, Alt. Energ. Ekol., No. 12(20), 36 (2004).
US Patent 2003/0113603A1; D. J. Highgate, L. Harrison, and S. Bourne, “Photovoltaic Cell,” WIPO Patent No. WO/2005/020332.
D. J. Highgate, J. A. Lloyd, S. Bourne, and R. L. Smith, “Membrane Electrode Assembly with Controlled Water Management/Ion Flow,” WIPO Patent No. WO/2005124893.
D. J. Highgate, J. A. Lloyd, S. Bourne, and R. L. Smith, “The Production of Membrane Electrode Assemblies and Stacks Thereof,” WIPO Patent No. WO/2005/124915.
D. J. Highgate, K. V. Lovell, and J. A. Horsfall, “Membrane Electrode Assemblies and Their Production,” WIPO Patent No. WO/2006/131758.
S. S. Ivanchev, V. N. Pavlyuchenko, O. N. Primachenko, and S. Ya. Khaikin, RF Patent No. 2 325 733 (May 27, 2008).
B. Bonnet, D. J. Jones, J. Roziere, et al., J. New Mater. Electrochem. Syst. 3, 87 (2000).
A. B. Yaroslavtsev, Russ. J. Inorg. Chem. 45(Suppl. 3), S249 (2000).
Z. G. Shao, P. Joghea, and I. M. Hsing, J. Membr. Sci. 229(1–2), 43 (2004).
A. S. Shalimov, S. A. Novikova, I. A. Stenina, and A. B. Yaroslavtsev, Zh. Neorg. Khim. 51(5), 767 (2006) [Russ. J. Inorg. Chem. 51 (5), 700 (2006)].
A. S. Shalimov, A. I. Perepelkina, I. A. Stenina, et al., Zh. Neorg. Khim. 53 (2008) (in press) [Russ. J. Inorg. Chem. 53 (2008) (in press)].
E. Yu. Voropaeva, I. A Stenina, and A. B. Yaroslavtsev, Zh. Neorg. Khim. 53 (2008) (in press) [Russ. J. Inorg. Chem. 53 (2008) (in press)].
A. I. Fomenkov, I. Yu. Pinus, A. S. Peregudov, et al., Vysokomol. Soedin., Ser. B 49, 1299 (2007) [Polym. Sci., Ser. B 49, 177 (2007)].
T. A. Kravchenko, V. A. Krysanov, A. S. Stolpovskii, et al., Elektrokhimiya 42,(3) 272 (2006) [Russ. J. Electrochem. 42 (3), 233 (2006)].
T. A. Kravchenko, M. Yu. Chaika, D. V. Konev, et al., Elektrokhimiya 42(6), 725 (2006) [Russ. J. Electrochem. 42 (6), 649 (2006)].
M. Yoon, Y. Kim, Y. M. Kim, et al., J. Magn. Magn. Mater. 272–276, 1259 (2004).
M. Yoon, Y. Kim, Y. M. Kim, et al., Mat. Chem. Phys. 91, 104 (2004).
T. A. Kravchenko, L. N. Polyanskii, D. V. Konev, et al., Zh. Fiz. Khim. 76(12), 2240 (2002) [Russ. J. Phys. Chem. 76 (12), 2037 (2002)].
T. A. Kravchenko, D. V. Konev, L. N. Polyanskii and V. A. Krysanov, Zh. Fiz. Khim. 79(8), 1553 (2005) [Russ. J. Phys. Chem. 79 (8), 1316 (2005)].
A. N. Ponomarev, Yu. L. Moskvin, and S. D. Babenko, Elektrokhimiya 43(3), 290 (2007) [Russ. J. Electrochem. 43 (3), 273 (2007)].
J. M. Tomassin, J. Koller, G. Caldarella, et al., J. Membr. Sci. 303(1–2), 252 (2007).
P. L. Antonucci, A. S. Ario, P. Creti, et al., Solid State Ionics 125, 431 (1997).
K. T. Adjemian, S. J. Lee, S. Srinivasan, et al., J. Electrochem. Soc. 149, 4256 (2002).
D. H. Jung, S. Y. Cho, D. H. Peck, et al., J. Power Sources 106, 173 (2002).
U. Mioc, M. Davidovic, N. Tjapkin, et al., Solid State Ionics 46, 103 (1991).
B. Tazi and O. Savadogo, Electrochim. Acta 45, 4329 (2000).
M. Tatsumisago, H. Honjo, Y. Sakai, and T. Minami, Solid State Ionics 74, 105 (1994).
H. Nakajima, S. Nomura, T. Sugimoto, et al., J. Electrochem. Soc. 149, A953 (2002).
A. S. Arico, V. Baglio, F. Lufrano, et al., Solid State Ionics 145, 101 (2001).
H. L. Lin, T. L. Yu, and F. H. Han, J. Polym. Res. 13(5), 379–385 (2006).
H. Chen, G. R. Palmese, and Y. A. Elald, Chem. Mater. 18(20), 4875 (2006).
H. Kim, M. S. Kang, D. H. Lee, et al., J. Membr. Sci. 304(1–2), 60–64 (2007).
A. G. Belobaba, M. V. Pevnitskaya, and A. A. Kozina, Izv. Sib. Otd. Akad. Nauk SSSR, Ser. Khim. Nauk, No. 9 (4), 161 (1980).
V. I. Zabolotskii, S. A. Loza, and M. V. Sharafan, USSR Inventor’s Certificate No. 2 005 101 531/15(001 906) (January 24, 2005).
Y. H. Su, Y. L. Liu, Y. M. Sun, et al., J. Membr. Sci. 296(1–2), 21–28 (2007).
J. I. Ishikawa, S. Furjiyama, K. Inone, et al., J. Membr. Sci. 98(1–2), 48–55 (2007).
F. C. Ding, S. J. Wang, M. Xiao, et al., J. Power Sources 170(1), 20–27 (2007).
J. Honma, H. Nakayama, O. Nishikawa, et al., Solid State Ionics 162–163, 237 (2003).
M. Kato, S. Katayama, W. Sakamoto, and T. Yogo, Electrochim. Acta 52(19), 5924 (2007).
M. Kato, W. Akamoto, and T. Yogo, J. Membr. Sci. 303(1–2), 43–53 (2007).
A. Yu. Leikin, E. G. Bulycheva, A. L. Rusanov, and D. Yu. Likhachev, Vysocomol. Soedin. B 48(5–6), 1031 (2006) [Polymer Science, Ser. B 48 (5–6), 144 (2006)].
I. I. Ponomarev, Yu. Yu. Rybkin, E. I. Goryunov, et al. Izv. Akad. Nauk, Ser. Khim., No. 9, 1937 (2004).
I. I. Ponomarev, Yu. Yu. Rybkin, E. I. Goryunov, et al. Izv. Akad. Nauk, Ser. Khim., No. 12, 2762 (2004).
N. F. Uvarov and V. V. Boldyrev, Usp. Khim. 70, 307 (2001).
A. B. Yaroslavtsev, Usp. Khim. 66, 641 (1997).
G. M. Cooper, The Cell: A Molecular Approach (The American Society for Microbiology, Washington, DC, United States, 2000).
E. Tekle, R. D. Astumian, and R. B. Chock, Biochem. Biophys. Res. Commun. 172, 4230 (1990).
W. Mehrie, U. Zimmermann, and R. Hump, Biochim. Biophys. Acta 978, 267 (1989).
M. Hibino, H. Itoh, and K. Kinosita, Biophys. J. 64, 1789 (1993).
D. S. Dimitrow and A. E. Sowers, Biochim. Biophys. Acta 1022, 381 (1990).
E. Tekle, R. D. Astumian, and P. B. Chook, Proc. Natl. Acad. Sci. USA 91, 1152 (1994).
N. P. Gnusin, N. P. Berezina, and N. A. Kononenko, Elektrokhimiya 23, 142 (1987).
N. P. Berezina, N. A. Kononenko, and T. V. Kukora, Izv. Vyssh. Uchebn. Zaved., Khim. Khim. Tekhnol.
G. N. Flerov and V. S. Barashenkov, Usp. Fiz. Nauk 114, 351 (1974) [Sov. Phys.—Usp. 17, 783 (1974)].
P. Apel, Y. E. Korchev, Z. Siwy, and R. Spohr, Nucl. Instrum. Methods Phys. Res., Sect. B 184, 337 (2001).
Z. Siwy and A. Fulinski, Phys. Rev. Lett. 89, 198 103-1 (2002).
I. D. Kosinska, A. Fulinski, and Z. Siwy, Europhys. Lett. 67, 683 (2004).
Z. Siwy, I. D. Kosinska, A. Fulinski, and C. R. Martin, Phys. Rev. Lett. 94, 048 102 (2005).
B. V. Derjaguin, N. V. Churaev, and G. A. Martynov, J. Colloid Interface Sci. 75, 419 (1980).
G. A. Martynov, V. M. Starov, and N. V. Churaev, Kolloidn. Zh. 42, 489 (1980).
B. V. Derjaguin, N. V. Churaev, and G. A. Martynov, and V. M. Starov, Khim. Tekhnol. Vody 3, 99 (1981).
V. M. Dorokhov, G. A. Martynov, V. M. Starov, and N. V. Churaev, Kolloidn. Zh. 46, 651 (1984).
I. D. Kosinska and A. Fulinski, Phys. Rev. E: Stat., Nonlinear, Soft Matter Phys. 72, 011 201 (2005).
A. B. Kolomeisky, Phys. Rev. Lett. 98, 048 105 (2007).
W. R. Bauer and W. Nadler, Proc. Natl. Acad. Sci. USA 103, 11 446 (2006).
A. N. Filippov, V. M. Starov, N. A. Kononenko, and N. P. Berezina, Adv. Colloid Interface Sci. (2008) (in press).
R. S. Shaw, N. Packard, M. Schröter, and H. Swinney, Proc. Natl. Acad. Sci. USA 104, 9580 (2007).
K. Awasthy, V. Kulshreshtha, D. Tripathi, et al., Bull. Mater. Sci. 29, 261 (2006).
V. V. Pirogov, I. M. Kurchatov, V. V. Volkov, et al., in Abstracts of Papers of the All-Russian Scientific Conference “Membranes-2007,” Moscow, Russia, October 4–8, 2007 (Moscow, 2007), p. 138.
M. V. Tsodikov, V. V. Teplyakov, M. I. Magsumov, et al., Kinet. Katal. 47(1), 29 (2006) [Kinet. Catal. 47 (1), 25 (2006)].
V. V. Teplyakov, M. V. Tsodikov, M. I. Magsumov, and F. Karteijn, Kinet. Katal. 48(1), 139 (2007) [Kinet. Catal. 48 (1), 132 (2007)].
R. Ditmeyer, K. Svajda, and M. Reif, Top. Catal. 29, 3 (2004).
S. Miachon and J. A. Dalmon, Top. Catal. 29, 59 (2004).
S. Thomas, R. Schafer, J. Caro, and A. Seidel-Morgenstern, Catal. Today 67, 205 (2001).
E. Mason and A. Malinauskas, Gas Transport in Porous Media: The Dusty Gas Model (Elsevier, New York, 1983; Mir, Moscow, 1985).
A. A. Khassin, A. G. Sipatrov, G. K. Chermashetseva, et al., Top. Catal. 32, 39 (2005).
T. Zivkovich, N. E. Benes, and H. J. M. Bouwmeester, J. Membr. Sci. 236, 101 (2004).
I. M. Kurchatov, N. I. Laguntsov, V. N. Tronin, and V. I. Uvarov, Alt. Energ. Ekol. 49(5), 134 (2007).
V. V. Volkov, N. A. Shturkin, R. M. Kadushnikov, et al., in Abstracts of Papers of the First All-Russian Conference on Multiple-Scale Simulation of Processes and Structures in Nanotechnologies, Moscow Institute of Engineering Physics, Moscow, Russia, 2008 (Moscow Institute of Engineering Physics, Moscow, 2008), p. 43.
M. E. Davis, Ind. Eng. Chem. Res. 30, 1675 (1991).
V. I. Roldughin and V. M. Zhdanov, Kolloidn. Zh. 66(3), 376 (2004) [Colloid J. 66 (3), 333 (2004)].
V. I. Roldugin, and V. M. Zhdanov, Zh. Tekh. Fiz. 76(4), 45 (2006) [Tech. Phys. 51 (4), 436 (2006)].
J. J. M. Beenakker and S. Yu. Krylov, J. Chem. Phys. 107, 4015 (1997).
S. Yu. Krylov, A. V. Prosyanov, and J. J. M. Beenakker, J. Chem. Phys. 107, 6970 (1997).
J. J. M. Beenakker and S. Yu. Krylov, Surf. Sci. 411, L816 (1998).
S. Yu. Krylov, J. J. M. Beenakker, and M. C. Tringides, Surf. Sci. 420, 233 (1999).
J. Karger and D. M. Ruthven, Diffusion in Zeolites (Wiley, New York, 1992).
J. J. M. Beenakker, V. D. Borman, and S. Yu. Krylov, Chem. Phys. Lett. 232, 379 (1995).
F. Kapteijn, W. J. W. Bakker, G. Zheng, et al., Chem. Eng. J. 57, 145 (1995).
H. Jobie, K. Hahn, J. Karger, et al., J. Chem. Phys. 101, 5834 (1997).
F. Kapteijn, W. J. W. Bakker, G. Zheng, et al., Microporous Mater. 3, 227 (1995).
L. J. P. van den Broeke, W. J. W. Bakker, F. Kapteijn, and J. A. Moulijn, AIChE J. 45, 976 (1999).
J. M. van de Graaf, F. Kapteijn, and J. A. Moulijn, AIChE J. 45, 497 (1999).
V. D. Borman, V. V. Teplyakov, V. N. Tronin, et al., Zh. Eksp. Teor. Fiz. 117(6), 1094 (2000) [JETP 90 (6), 950 (2000)].
V. D. Borman, V. N. Tronin, I. V. Tronin, and V. I. Troyan, Zh. Eksp. Teor. Fiz. 125(1), 1 (2004) [JETP 98 (1), 102 (2004)].
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © V.V. Volkov, B.V. Mchedlishvili, V.I. Roldugin, S.S. Ivanchev, A.B. Yaroslavtsev, 2008, published in Rossiiskie nanotekhnologii, 2008, Vol. 3, Nos. 11–12.
Rights and permissions
About this article
Cite this article
Volkov, V.V., Mchedlishvili, B.V., Roldugin, V.I. et al. Membranes and nanotechnologies. Nanotechnol Russia 3, 656–687 (2008). https://doi.org/10.1134/S1995078008110025
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1995078008110025