Диссертация (1150078), страница 20
Текст из файла (страница 20)
152. – С. 801-807.6.Lee J. H. Review on zirconia air-fuel ratio sensors for automotiveapplications/ J.H. Lee //Journal of materials science. – 2003. – Т. 38. – №. 21. – С.4247-4257.7.Akbar S. High‐Temperature Ceramic Gas Sensors: A Review/ S. Akbar, P.Dutta, C.
Lee //International journal of applied ceramic technology. – 2006. – Т. 3.– №. 4. – С. 302-311.8.Fergus J. W. Materials for high temperature electrochemical NO x gassensors/ J.W. Fergus //Sensors and Actuators B: Chemical. – 2007. – Т. 121. – №.2. – С. 652-663.9.Slotwinski R. K. Electrical properties of MgO+ Y2O3 and CaO+ Y2O3partially-stabilized zirconias/ R.K.
Slotwinski , N.Bonanos, E.P. Butler //Journalof materials science letters. – 1985. – Т. 4. – №. 5. – С. 641-644.10. Goldschmidt V. M. The laws of crystal chemistry/ V.M. Goldschmidt//Naturwissenschaften. – 1926. – Т. 14. – №. 21. – С. 477-485.11. Kilner J.A. Solid State Chemistry/ ed. by J.A. Kilner in: R.Metselaar, H.J.M.Heijinger and J.Schoonman–Amsterdam: Elseiver Science Ltd., 1982.12. Кингери У.Д. Введение в керамику/ У.Д. Кингери– 2-е. изд.– М.:Издательство литературы по строительству–500 с.13. КофстадП.Отклонениеотстехиометрии,диффузияиэлектропроводность в простых оксилах металлов/ П.
Кофстад –М.:Мир,1975– 402 с.14. Иванов-Шиц А.К. Ионика твердого тела: в 2т Т.2/ А.К, Иванов-Шиц,И.В. Мурин– СПб: Изд-во С.-Петерб. Университета, 2000.– 616 с.14215. Stubican V. SPhase Equilibria and Ordering in the System ZrO2‐Y2O3/ V.S.Stubican, R.C. Hink, S.P. Ray //Journal of the American Ceramic Society. – 1978.– Т. 61. – №. 1‐2. – С. 17-21.16.Minh N.Q. Science and Technology of Ceramic Fuel Cells/ N.Q.
Minh andT. Takahashi– Amsterdam:Elsevier, 1995– 379 с.17. Иванов-Шиц А.К. Ионика твердого тела: в 2т Т.1/ А.К, Иванов-Шиц,И.В. Мурин– СПб: Изд-во С.-Петерб. Университета, 2009.– 1000 с.18. Иванов В. В. Электропроводность твердого электролита на основедиоксида циркония с размером зерна керамики в субмикронном диапазоне/В.В. Иванов, С.Н. Шкерин, А.С. Липилин, А.В.
Никонов, В.Р, Хрустов, иА.А. Ремпель //Электрохимическая энергетика. – 2010. – Т. 10. – №. 1. – С. 310.19. Вест А. Химия твердого тела. Теория и приложения. В 2-х ч. Ч.1: Пер. сангл. – М.: Мир, 1988. 558 с., ил.20. Hench L. L. The sol-gel process/ L.L. Hench, J.K. West //ChemicalReviews. – 1990.
– Т. 90. – №. 1. – С. 33-72.21. Galkin V. S. Synthesis of nanopowders in the systems of Ce 2O3–ZrO2,Y2O3–ZrO2 and Y2O3-Ce2O3–ZrO2 for fabrication of oxygen sensors/ V.S. Galkin,V.G. Konakov, A.V. Shorohov and E.N. Solovieva //Reviews on AdvancedMaterials Science. – 2005.
– Т. 10. – №. 4. – С. 353-356.22. Ivanova E. A. The synthesis of nano-sized powders in the ZrO2–HfO2–Y2O3system/ E. A. Ivanova, V.G. Konakov, E.N. Solovyeva //SYNTHESIS. – 2003. –Т. 4. – №. 1.23. Иванов-Павлов Д. А. Взаимосвязь размера частиц и фазообразования всистеме Al2O –ZrO2 //Вестник Санкт-Петербургского университета. – 2008. –№. 3.24. Kurapova O.
Yu. Cryochemical methods for manufacturing nanosizedceramics and ceramic precursor powders with low agglomeration degree: a review/O. Yu. Kurapova, V.G. Konakov, S.N. Golubev, V.M. Ushakov and I.Yu.Archakov //Rev. Adv. Mater. Sci. – 2012. – Т. 32. – С.
112-132.25. Копица Г. П. Мезоструктура ксерогелей гидратированного диоксидациркония/ Г.П. Копица, В.К. Иванов, С.В. Григорьев, П.Е. Мескин, О.С.Полежаева и В.М. Гарамус //Письма в Журнал экспериментальной итеоретической физики. – 2007. – Т. 85. – №. 2. – С. 132-136.26. Brune A. The electrical conductivity of yttria-stabilized zirconia prepared byprecipitation from inorganic aqueous solutions/ A. Brune, M.
Lajavardi, D. Fisler,and J.B. Wagner //Solid State Ionics. – 1998. – Т. 106. – №. 1. – С. 89-101.14327. Masaki T. Mechanical properties of toughened ZrO2–Y2O3 Ceramics/ T.Masaki //Journal of the American Ceramic Society. – 1986. – Т. 69. – №. 8. – С.638-640.28.
Druschitz A. P. Hot Isostatic Pressing of a Presintered Yttria‐StabilizedZirconia Ceramic/ A.P. Druschitz, J. G. Schroth //Journal of the American CeramicSociety. – 1989. – Т. 72. – №. 9. – С. 1591-1597.29. Atkinson H. V. Fundamental aspects of hot isostatic pressing: an overview/H.V. Atkinson, S. Davies //Metallurgical and Materials Transactions A.
– 2000. –Т. 31. – №. 12. – С. 2981-3000.30. Langer J. Electric Field‐Assisted Sintering in Comparison with the HotPressing of Yttria‐Stabilized Zirconia/ J. Langer, M.J. Hoffmann, O. Guillon//Journal of the American Ceramic Society. – 2011. – Т. 94. – №. 1.
– С. 24-31.31. Ivanov V. Application of Magnetic Pulsed Compaction for Sintering ofNanostructured Oxide Ceramics/ V. Ivanov, S. Paranin, V.Khrustov, Y.Kotov, S.Ivin, A. Nikonov and A. Shtol'ts //Adv. Sci. Technol. 31. – 2002. – С. 417-424.32.
Anselmi-Tamburini U. Fast low-temperature consolidation of bulknanometric ceramic materials/ U. Anselmi-Tamburini, J.E. Garay, Z. Munir//Scripta materialia. – 2006. – Т. 54. – №. 5. – С. 823-828.33. Migliorato P. Method for the simultaneous measurement of surface and bulkconductance in semiconductors/ P. Migliorato, V. Parisi //Applied Physics Letters.– 1984. – Т. 44. – №. 2. – С.
225-227.34. Fielder W. L. Conductivity of Boules of Single‐Crystal SodiumBeta‐Alumina/ W.L. Fielder, H.E. Kautz, J.S. Fordyce and J. Singer //Journal ofThe Electrochemical Society. – 1975. – Т. 122. – №. 4. – С. 528-530.35. Стойнов, З. Б. Электрохимический импеданс/ З. Б.
Стойнов, Б.М.Графов, Б. Савова-Стойнова и В.В. Елкин – М.: Наука, 1991.–336 с.36. Inaba H. Ceria-based solid electrolytes/ H.Inaba, H. Tagawa //Solid stateionics. – 1996. – Т. 83. – №. 1. – С. 1-16.37. Bauerle J. E. Study of solid electrolyte polarization by a complex admittancemethod/ J.E. Bauerle //Journal of Physics and Chemistry of Solids. – 1969. – Т. 30.– №.
12. – С. 2657-2670.38. Chu S. H. The ac electrical behavior of polycrystalline ZrO2–CaO/ S.H. Chu,M.A. Seitz //Journal of Solid State Chemistry. – 1978. – Т. 23. – №. 3-4. – С. 297314.39. Barsoukov E. Impedance spectroscopy: theory, experiment and applications/E. Barsoukov, J.R.
Macdonald.– 2nd edition.– New Jersey: John Willey and sons,2005.–595 c.14440. Nernst W. On the electrolytic conduction of solid bodies at hightemperatures/ W. Nernst //Z. Electrochem. – 1899. – Т. 6. – №. 2. – С. 41-43.41. Kharton V. V. Transport properties of solid oxide electrolyte ceramics: abrief review/ V.V. Kharton, F.M. B. Marques, A. Atkinson //Solid State Ionics.
–2004. – Т. 174. – №. 1. – С. 135-149.42. Kilner J. A. A study of oxygen ion conductivity in doped non-stoichiometricoxides/ J.A. Kilner, R.J. Brook //Solid State Ionics. – 1982. – Т. 6. – №. 3. – С.237-252.43. Anselmi-Tamburini U. Enhanced low-temperature protonic conductivity infully dense nanometric cubic zirconia/ U. Anselmi-Tamburini, F. Maglia, G.Chiodelli, P. Riello, S. Bucella and Z.A. Munir //Applied physics letters.
– 2006. –Т. 89. – №. 16. – С. 3116.44. Dawson J. A. Significant Reduction in Hydration Energy for YttriaStabilized Zirconia Grain Boundaries and the Consequences for ProtonConduction/ J.A. Dawson, I. Tanaka //Langmuir. – 2014. – Т. 30. – №. 34. – С.10456-10464.45. Guo X. On the grain boundaries of ZrO2-based solid electrolyte/ X. Guo,R.Z. Yuan //Solid State Ionics. – 1995.
– Т. 80. – №. 1. – С. 159-166.46. Haering C. Degradation of the electrical conductivity in stabilised zirconiasystems Part I: yttria-stabilised zirconia/ C. Haering, A. Roosen, H. Schichl //SolidState Ionics. – 2005. – Т. 176. – №. 3-4. – С.
253-259.47. Урусов В.С. Энергетическая кристаллохимия/ В.С. Урусов.– М.: Наука,1975.– 255с.48. Stubican V. S. Phase Equilibria and Ordering in the System ZrO2‐CaO/ V.S.Stubican, P.S. Ray //Journal of the American Ceramic Society. – 1977. – Т. 60. –№. 11‐12. – С. 534-537.49. Etsell T. H. Electrical properties of solid oxide electrolytes/ T.H. Etsell, S.N.Flengas //Chemical Reviews. – 1970. – Т. 70. – №. 3. – С. 339-376.50. Settu T. Characterisation of MgO–ZrO2 precursor powders prepared by insitu peptisation of coprecipitated oxalate gel/ T. Settu //Ceramics international.
–2000. – Т. 26. – №. 5. – С. 517-521.51. Ruh R. The System Zirconia‐Scandia/ R. Ruh, H.J. Garrett, R.F. Domagalaand V.A. Patel //Journal of the American Ceramic Society. – 1977. – Т. 60. – №.9‐10. – С. 399-403.52. Angeles-Rosas M. Structure, conductivity and luminescence of 8mol%scandia-doped zirconia prepared by sol–gel/ M.
Angeles-Rosas, M.A. Camacho-145López, E. Ruiz-Trejo //Solid State Ionics. – 2010. – Т. 181. – №. 29. – С. 13491354.53. Badwal S. P. S. An investigation of conductivity, microstructure andstability of electrolyte compositions in the system 9mol%(Sc 2O3–Y2O3)–ZrO2(Al2O3)/ S.P.S. Badwal, F.T.
Ciacchi, S. Rajendran and J. Drennan //Solid StateIonics. – 1998. – Т. 109. – №. 3. – С. 167-186.54. Badwal S. P. S. Scandia–zirconia electrolytes for intermediate temperaturesolid oxide fuel cell operation/ S.P.S. Badwal, F.T. Ciacchi, D. Milosevic //SolidState Ionics. – 2000. – Т. 136. – С. 91-99.55. Haering C. Degradation of the electrical conductivity in stabilised zirconiasystem: Part II: scandia-stabilised zirconia/ C. Haering, A.
Roosen, H. Schichl andM. Schnöller //Solid State Ionics. – 2005. – Т. 176. – №. 3. – С. 261-268.56. Yamamoto Electrical conductivity of stabilized zirconia with ytterbia andscandia/ O. Yamamoto, Y. Arati, Y. Takeda, N. Imanishi, Y. Mizutani, M. Kawaiand Y. Nakamura //Solid State Ionics. – 1995. – Т. 79.
– С. 137-142.57. Gonzalez M. Solid-state reaction, microstructure and phase relations in theZrO2-rich region of the ZrO2-Yb2O3 system/ M. Gonzalez, C. Moure, J.R. Juradoand P. Duran, //Journal of materials science. – 1993. – Т. 28. – №. 13. – С. 34513456.58. Hohnke D. K.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
