References
advertisement
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 36. References Alberti G., Casciola M. Solid State Protonic Conductors, Present Main Applications and Future Prospects // Solid State Ionics.– 2001.– V. 145.– P. 3-16. ] Smotkin E.S. Hydrogen permeable membrane for use in fuel cells and partial reformate fuel cells system having reforming catalysts in the anode fuel cells compartment. Pat. US 0031695A1. Publ.2002, Mar.14 Lebedev N.N. Chemistry and technology of the base organic and oilchemical synthesis. – M.: Chemistry, 1988. Corma A. Inorganic Solid Acids and Their Use Acid-Catalyzed Hydrocarbon Reactions // Chem. Rev. – 1995. – V. 95, N 3.– P. 559–614. Yaroslavtzev A.B., Nikonenko V.V., Zabolotzkyy V.I. The ion transfer in the membrane and ion exchanging materials // The advances of chemistry.– 2003.– т. 72, № 5.– P. 438-470. Eisenberg A. Clustering of Ions in Organic Polymers - A Theoretical Approach // Macromolecules. – 1970. – V. 3. – P. 147-154. Timashev S.F. Physical-chemistry of membrane processes. – Moscow: Chemistry, 1988, 229 p. Gnysin N.P., Berezina N.P. The features of electrical conductance of ion exchanging materials // The Journal of physical chemistry – 1995. – Т. 69, № 12 – P. 2129–2137. Physical-chemistry principals of ionchanging membranes test / Gnysin N.P., Berezina N.P., Dolina О.A., Kononenko N.А. // JPC. – 1996. – Т. 32, № 2. – P. 173–182. Pat. 2265257 Russia, MKI7 H 01 М8/02, H 01B1/06. Proton conductor, the technique of its production and electrochemical apparatus with its application. Hinokyma К., Piettzak B., Rost К. et al.; Sony Corporat. – Application 19.07.2000; Publ. 27.11.2005. Pat. 20070190384 USA, МКI H01М8/10; C08J5/22. Proton Conductor Containing Fullerenes: Tasaki K., Gasa J., Desousa R., Wang H. (USA). – Goleta; N 11/357.655; Application 16.12.2006; Publ. 16.08.2007. Pat. US 2007087247, H01M8/10. Fullerene based proton conductive materials. Bertold N, Bjoern P. Publ. 200704-19. Rysanov A.L., Lihachev D.Y., Myullen К. Electrochemical protonconductive membranes on the base of the aromatical condensation polymers // The chemical advances.– 2002.– Т. 71, № 9.– P.862–876. Pаt. RU 2276160C1, МPК B01D 71/40, B01D 71/62, B01D 71/64. Bensimidazolesubstituted polybensimidazoles – the initial material for production of the proton-conductive membranes. Lihachev D.Y., Leykin А.Y., Rysanov A.L. Publ. 2006.09.27. Garnue F. The conductive polymers // Advances of physical sciences.– 1989.– Т. 157, № 3.– P. 513-527. Vernitskaya Т.V., Efimov О.N. Polypyrrole аs representative of class of conductive polymers (synthesis, properties, supplements)// The advances of chemistry.– 1997.– Т. 66, № 5.– P. 489-505 Jonas F., Schader L. Conductive Modifications of Polymers with Polypyrroles and Polythiophenes// Synth. Met.– 1991.– V. 41, N 1-3.– P. 831-836. Cao Y., Smith P., Heeger A.J. Counterion Induces Processibility of Conducting Polyaniline and of Conducting Polyblends of Polyaniline in Bulk Polymers// Synth. Met.– 1991.– V. 41, N 1-3.– P. 831-836. Shacklette L.W., Han C.C. Luly M.H. Polyaniline Blends in Thermoplastics// Synth. Met.– 1993.– V. 57, N 1-3.– P. 3532-3537. Bhattacharya A., De A. Conducting Composites of Polypyrrole and Polyaniline: a Review// Prog. Solid State Chem.–1996.– V. 24, N 3.–P. 141-181. Roncali J. Conjucted Poly(thiophenes): Synthesis, Functionalization, and Applications// Chem. rev.– 1992.– V. 92, N 4.– 711-738. New electrochemical active highsulfide polyconjugate polymers / Trofimov B.А., Мyachina G.F., Korzshova S.А. etc.// Electrochemistry.– 2002.– Т. 38, № 2.– P. 217-221. Synthesis of Electrically Conducting Organic Polymers: Halogen Derivatives of Poly(acetylene), (CH) x/ Shirakawa H., Louis E.J., MacDiarmid A.G. et al.// J. Chem. Soc., Chem. Commun.– 1977.– V. 16.– 578-579. Polyconjugate polymers: The collected articles/ А.М. Sladkov.– М.: Nauka, 1989. Qian D., Gregory G.I., Liu W.K. et al. // Appl. Mech. Rev.– 2002.– V. 55.– P. 495-533. Robertson J.// Materials Today.– 2004, Oct.– P. 46-52. Terrones M., Jorio A., Endo M. et al.// Materials Today.– 2004, Oct.– P. 30-45. Li X., Liu L., Qin Y et al.// Chem. Phys. Lett.– 2003.– V. 377.– P. 32-36. Heinze J. Electrochemistry of Conducting Polymers// Synth. Met.– 1991.– V. 43, N 1/2.– P. 2805-2823. Organic polymere polyconductors/ Payshkin Y.М., Vishnyakova Т.P., Lunin А.F., Nizova S.А.– M: Chemistry, 1971. Byuller К.-U. Heat-and thermoresistant polymers.– М: 1984. Kachkovskyy А.D. Soliton character of electronic structure of ions of linear conjugate systems// Тheoretic and experimental chemistry.– 2005.– Т. 41, № 3.– P. 133-155. Kachkovskyy А.D. The nature of the electronic transfer in linear conjugate systems // The chemical advances.– 1997.– Т.66, № 8.– P. 715-734. Palguyev S.F. Polymer membranes, polyantimonial acids. Тhe solid electrolytes with proton conductivity // JPC.– 1996.– Т. 69, № 1.– P. 3-11. Yaroslavtzev А.B. The proton conductivity of inorganic hydrates //The advances of chemistry – 1994. Т.63, № 5.– P. 449–455. Wu Q., Meng G. Preparation and Conductivity of Vanadotungstogermanic Heteropoly Acid // Solid State Ionics.– 2000.– № 136–137.– P. 273–277. 37. Treglazov I.V., Dobrovolskyy Y.А., Leonova L.S. et al. The conductivity and morphology of composite solid electrolytes SnO2·nH2O-heteropolycompounds // Electrochemistry.– 2003.– Т. 39, № 5.– P. 559-564. 38. Kim Je-Deok, Honma I. Highly Proton Conducting Hybrid Materials Synthesized from 12-Phosphotungstic and Hexadecyltrimethylammonium Salt // Solid State Ionics.– 2005.– V. 176.– P. 547-552. 39. Carriere D., Moreau M., Lhalil K. et al. Proton Conductivity of Colloidal Nanometric Zirconium Phosphates // Solid State Ionics.– 2003.– V. 162-163.– P. 185-190. 40. Alberti G., Costantino U., Casciola M. et al. Preparation, Characterization and Proton Conductivity of Titanium Phosphate Sulfophenylphosphonate // Solid State Ionics.– 2001.– V. 145.– P. 249-255. 41. Maltseva Т.V., Kotvytskyy А.G., Belyakov V.N. The properties of inorganic cation-exchange membranes on the basis of phosphate containing membranes. // Chemistry and technology of water.– 2002.– Т. 24, № 6.– P. 526534. 42. Yang M.Y., Yamazaki Y. Preparation and Characterization of Composite Membranes Composed of Zirconium Tricarboxybutylphosphonate and Polybenzimidazole for Intermediate Temperature Operation // Solid State Ionics.– 2005.– V. 139, N 1-2.– P. 2-8. 43. Armento P., Casciola M., Pica M. et al. Silica-Zirconium Phosphate-Phosphoric Acid Composite: Preparation, Proton Conductivity and Use in Gas Sensors // Solid State Ionics.– 2004.– V. 166.– P. 19-25. 44. Ponomaryova V.G., Lavrova G.V., Burgina Y.B. The investigation of composite’s formation on the basis of CsHSO4 and Cs5H3(SO4)4 and of mechanism of proton conductivity // Electrochemistry.– 2005.– Т.41, № 5.–P. 640-645. 45. Lavrova G.V., Ponomaryova V.G. The surface and volumetric conductivity and thermodynamic properties of ion salt CsH5(PO4)//Electrochemistry.– 2007.– Т. 43, № 4.– P. 479-486. 46. Pisareva А.V., Dobrovolskyy Y.А., Shilov G.V.et al. Synthesis, structure and conductivity of triple-substituted cesium and rubidium salts of trimesic acid // Electrochemistry.– 2003.– Т. 39, № 5.– P. 565-570. 47. Lavrova G.V., Pоnomareva V.G., Burgina E.B. Proton Conductivity and Structural Dynamics in Cs5H3(SO4)4/SiO2 Composites // Solid State Ionics.– 2005.– V. 176.– P. 767-771. 48. Sharova N.V., Gorelov V.P. Electro-conductivity and ion transfer in proton solid electrolytes BaCe0,85R0,15O3-α (R = rare-earth element) // Electrochemistry.– 2003.–Т. 39, № 5.– P. 513-519. 49. Amezawa K., Yamada J., Kitamura N. et al. High Temperature Protonic Conduction in Sr-Doped La2Si2O7 // Solid State Ionics.– 2005.– V. 176, N 3-4.– P. 341-347. 50. Li Yong-sheng, W. Jin-gu, Bao Zhong-yuing et al. The start of yielding of crystal on the vehicle during preparation of membrane from ZSM-5 // Acta Petrol. Sin. Petrol. Process. Soc.– 2000.– V. 16, N 15.– P. 31-35. 51. Pat. WO 2004/028998 A2, US C04B 35/495 CO1G 25/00, 33/00. Electrolytic perovskites. Tanner, Cameron W. Publ.24.09.2002. 52. Pat. US 2004096720A1, H01M 8/10 C01B 17/32 C03C 3/32. Compounds for novel proton conducting membranes and methods of making same. Steven A.Poling, Steve V. Martin, Jacob T. Sutherland. Publ. 200405-20. 53. Comparative analysis of the methods of the determination of the specific electric conductivity of ion-exchanging membranes./ Каrpenko L.V., Demina О.А., Dvorkina G.А. et al.// Electrochemistry. – 2001.– Т. 37, № 3.– P. 328-335. 54. Researching of surface-modified membrane by impedance method./ Bobreshova О.V., Golitzin V.Y., Kozintzov P.I .et al.// Electrochemistry. – 1978.– Т. 23, № 4.– P. 538-541. 55. Concoran D.J.D., Irvine J.T.S. Investigations into Sr3CaZr0.5Ta1.5O8.75, a Novel Proton Conducting Perovskite Oxide// Solid State Ionics.– 2001.– V. 145.– P. 307-313.
