Диссертация (1144348), страница 19
Текст из файла (страница 19)
Am. Acad. Arts Sci. – 1916. – V. 51. – P. 579 –625.97. Aydinoll, M.K. A comparative ab initio study of the ferroelectric be-haviourin KNO3 and CaCO3 / M.K. Aydinol1, J.V. Mantese, S.P. Alpay // J. Phys.:Condens. Matter. – 2007. – V. 19. –Iss. 49. – P. 496210 – 496232.98. Chen, A. Nature of feroelectricity in KNO3 / A. Chen, F. Chernow // Phys.Rev. – 1967. – V. 154. – Iss.
2. – P. 493 – 505.99.Стукова, Е.В. Диэлектрические свойства сегнетоэлектрическихкомпозитов на основе KNO3-BaTiO3 и KNO3-LiNbO3 / Е.В. Стукова, В.В.Маслова, С.В. Барышников // Известия РГПУ им. А.И. Герцена. - 2011. –Т.138. –С. 58 –65.100. Стукова, Е.В. Изменение температурного интервала существованиясегнетоэлектрической фазы в композитах на основе нитрата калия / Е.В.Стукова, А.Д. Лукьянченко // Вестник Амурского государственного121университета.
Сер. Естественные и экономические науки. - 2014. - № 65. –С.37–44.101. Akgdogan, E. K. Size effects in ferroelectric ceramics / E. K. Akgdogan, M.R. Leonard and A. Safari / Handbook of Low and High Dielectric ConstantMaterials and their Applications.
-1999. –Vol. 2. –Pp. 61.102. Kanzig, W. Space Charge Layer Near the Surface of a Ferroelectric/ W.Kanzig // Phys. Rev. -1955. –Vol. 98. –Pp. 549.103. Bachmann, R. Stable suspensions of ferroelectric BaTiO3-particles / R.Bachmann and K. Barner // Solid State Commun. -1988. –Vol. 68. –Issue. 9. –Pp. 865-869.104. Shaw, T. M. The Properties of Ferroelectric Films at Small Dimensions / T.M. Shaw, S. Trolier-McKinstry and P.
C. McIntyre // Annu. Rev. Mater. Sci. 2000. –Vol. 30. –Pp. 263-298.105. Streiffer, S. K. Observation of Nanoscale 180 ° Stripe Domains inFerroelectric P b T i O 3 Thin Films / S. K. Streiffer, J. A. Eastman, D. D. Fong, C.Thomson, A. Mukholm, M. V. R. Murthy, O. Auciello, G. R.
Bai, G. B.Stephenson // Phys. Rev. Lett. -2002. –Vol. 89. –Issue. 6. –Pp. 067601.106. Гинзбург, В.Л. К теории сверхпроводимости / Гинзбург В.Л., Ландау Л. Д. // ЖЭТФ. 1950. –Т. 20. –С. 1064.107. Wurfel, P. Depolarization effects in thin ferroelectric films / P. Wurfel and I.P. Batra // Ferroelectrics. -1976. –Vol. 12. –Pp. 55-61.108. Batra, I. P.
Phase Transition, Stability, and Depolarization Field inFerroelectric Thin Films / I. P. Batra, P. Wurfel and B. D. Silverman // Phys. Rev.B. -1973. –Vol. 8. –Issue. 8. –Pp. 3257.109. Shih, W. Y. Size dependence of the ferroelectric transition of small BaTiO3particles: Effect of depolarization / W. Y. Shih, W. H. Shih and I. A. Aksay //Phys. Rev. B.
-1994. –Vol. 50. –Pp. 15575-15585.110. Kretchmer, R. Surface effects on phase transitions in ferroelectrics anddipolar magnets / R . Kretchmer and K. Binder // Phys. Rev. B. -1979. –Vol. 20. –Pp. 1065.111. Scott, J. F. Properties of ceramic KNO3 thin-film memories / J. F. Scott, H.M. Duiker, D. Beale, P. Poulighy, K. Dimemr, M. Parris, D. Butler and S. Eaton//Physica B. -1988. –Vol. 150.
–Pp. 160.112. Tsukenawa, S. Origin of Anomalous Lattice Expansion in OxideNanoparticles / S. Tsukenawa, K. Ishikawa, Y. Kawazoe and A. Kasuya // Phys.Rev. Lett. -2000. Vol. 85. –Pp. 3440113. Uchino, K. Dependence of the Crystal Structure on Particle Size in BariumTitanate / K. Uchino, E. Sadanaga and T. Hirose // J. Am. Ceram. Soc. – 1989. –Vol. 72. –Issue. 8. –Pp. 1555-1558114. Catalan, G. Strain gradients in epitaxial ferroelectrics / G. Catalan, B.Noheda, J. McAneney, L. J. Sinnamon and J. M. Gregg // Phys. Rev. B. – 2005. –Vol.
72. –Pp. 0201102.122115. Bratkovsky, A. M. Smearing of Phase Transition due to a Surface Effect or aBulk Inhomogeneity in Ferroelectric Nanostructures / A. M. Bratkovsky and A. P.Levanyuk // Phys. Rev. Lett. -2005. –Vol. 94. –Pp. 107601.116. Bratkovsky, A. M. Abrupt Appearance of the Domain Pattern and Fatigue ofThin Ferroelectric Films / A. M. Bratkovsky and A.
P. Levanyuk // Phys. Rev.Lett. -2000. –Vol. 84. –Pp. 3177.117. Junguera, J. Critical thickness for ferroelectricity in perovskite ultrathinfilms / J . Junguera and P . Ghosez // Nature. – 2003. –Vol. 422. –Pp. 506-509.118. Fu, H. Ferroelectricity in Barium Titanate Quantum Dots and Wires / H. Fuand L. Bellaiche // Phys. Rev. Lett. – 2003. –Vol. 91. –Pp. 257601.119.
Kim, Y. S. Critical thickness of ultrathin ferroelectric BaTiO3 films / Y. S.Kim, D. H. Kim, J. D. Kim, Y. J. Chang, and T. W. Noh // Appl. Phys. Lett. –2005. –Vol.86. –Pp. 102907.120. Zembiglotov, A. G. Ultrathin epitaxial ferroelectric films grown oncompressive substrates: Competition between the surface and strain effects / A. G.Zembilgotov, N.
A. Pertsev, H. Kohlstedt, and R. Waser // J. Appl. Phys. -2002. –Vol. 91. –Issue. 4. –Pp. 2247.121. Tybell, T. Ferroelectricity in thin perovskite films / T. Tybell, C. H. Ahn,and J.-M. Triscone// Appl. Phys. Lett. – 1999. –Vol. 75. –Issue. 6. –Pp. 856.122. Bune, A. Two-dimensional ferroelectric films / A. V. Bune, V. M. Fridkin,Stephen Ducharme, L. M. Blinov, S.
P. Palto, A. V. Sorokin, S. G. Yudin, A.Zlatkin // Nature. - 1998. – Vol. 391. –Pp. 874-877.123. Scott, J.F. Applications of modern ferroelectrics / J.F. Scott // Science. –2007. –Vol. 315. –Pp. 954–959.124. Scott, J.F. Prospects for ferroelectrics: 2012–2022. / J.F. Scott // ISRNMater. Sci. – 2013. –Vol. 2013. –Pp. 187313.125. Martin, L.W. Thin-film ferroelectric materials and their application / L.W.Martin, A.M. Rappe //Nat.
Rev. Mater. – 2016. –Vol. 2. –Pp. 10087.126. Sengupta, L.C. Breakthrough advances in low loss, tunable dielectricmaterials / L.C. Sengupta, S. Sengupta // Mater. Res. Innov. – 1999. –Vol. 2. –Pp.278–282.127. Yu, K.W. Effective dielectric response of nonlinear composites / K.W. Yu,P.M. Hui, D. Stroud// Phys.
Rev. B Condens. Matter. – 1993. Vol. 47. –Pp. 14150–14156.128. Rogazinskaya, O.V. Repolarization properties of nanocomposites based onporous glass and aluminum oxide with inclusions of sodium nitrite / O.V.Rogazinskaya, S.D. Milovidova, N.G. Popravko, A.S. Sidorkin, A.A.Naberezhnov, E.V. Grokhotova // Ferroelectrics. – 2013. –Vol. 444. –Pp. 107–110.129. Ploss, B. Pyroelectric or piezoelectric compensated ferroelectric composites/ B. Ploss, F.G. Shin, H.L.W.
Chan, C.L. Choy // Appl. Phys. Lett. – 2000. –Vol.76. –Pp. 2776–2778.130. Fokin, A.V. Temperature evolution of sodium nitrite structure in a restrictedgeometry / A.V. Fokin, Y.A. Kumzerov, N.M. Okuneva, N.M. Naberezhnov, S.B.123Vakhrushev, I.V. Golosovsky, A.I. Kurbakov // Phys. Rev. Lett. – 2002. –Vol. 89.–Pp. 175503–175506.131. Milovidova, S.D. Dielectric properties of the composites based onnanocrystalline cellulose and triglycine sulfate / S.D.
Milovidova, O.V.Rogazinskaya, A.S. Sidorkin, K.T. Nguen, E.V. Grohotova, N.G. Popravko, //Ferroelectrics. – 2014. –Vol. 469. –Pp. 116–119.132. Rogazinsksya, O.V. Ferroelectricity in nanocomposites based on porousglass with inclusions of NaNO2 / O.V. Rogazinsksya, A.S. Sidorkin, S.D.Milovidova, A.A. Naberezhnov, N.N. Matveev, N.G. Popravko, A.V. Fokin //Bull. Russ.
Acad. Sci. Phys. – 2011. –Vol. 75. –Pp. 1410–1413.133. Tarnavich, V. Effect of restricted geometry on structural phase transitions inKH2PO4 and NH4H2PO4 crystals / V. Tarnavich, L. Korotkov, O. Karaeva, A.Naberezhnov, E. Rysiakiewicz-Pasek // Opt. Appl. – 2010. –Vol. 40. –Pp. 305–309.134. Baryshnikov, S.V. Dielectric and NMR studies of nanoporous matricesloaded with sodium nitrite / S.V. Baryshnikov, E.V. Stukova, E.V. Charnaya, C.Tien, M.K.
Lee, B. Böhlmann, D. Michel // Phys. Solid State. – 2006. –Vol. 48. –Pp. 593–599.135. Rysiakiewicz-Pasek, E. Properties of porous glasses with embeddedferroelectric materials / E. Rysiakiewicz-Pasek, R. Poprawski, J. Polanska, A.Urbanowicz, A. Sieradzki // J. Non-Cryst. Solids.
– 2006. –Vol. 352. –Pp. 4309–4318.136. Sherman, V.O. Ferroelectric-dielectric tunable composites / V.O. Sherman,A.K. Tagantsev, N. Setter // J. Appl. Phys. – 2006. –Vol. 99. –Pp. 074104.137. Zhang, Q. Microstructure and dielectric property relationships in sphericalinclusion ferroelectric composite ceramics / Q. Zhang, J. Zhai, H. Zhang, X. Yao //J. Appl.
Phys. – 2012. –Vol. 112. –Pp. 054101.138. Rogazinskaya, O.V.; Milovidova, S.D.; Sidorkin, A.S.; Popravko, N.G.;Bosykh, M.A.; Enshina, V.S. Dielectric properties of ferroelectric composites withTGS inclusions / O.V. Rogazinskaya, S.D. Milovidova, A.S. Sidorkin, N.G.Popravko, M.A. Bosykh, V.S. Enshina // Ferroelectrics. – 2010. –Vol. 398. –Pp.191–197.139. Rogazinskaya, O.V. Properties of nanoporous aluminum oxide withtriglycine sulfate and rochelle salt inclusions / O.V. Rogazinskaya, S.D.Milovidova, A.S.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
