kw.\*:("Titanates")
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Crystal structures of Na1/2Ln1/2TiO3 (Ln: La, Eu, Tb)RANJAN, Rajeev; SENYSHYN, Anatoliy; BOYSEN, Hans et al.Journal of solid state chemistry (Print). 2007, Vol 180, Num 3, pp 995-1001, issn 0022-4596, 7 p.Article
Micron-scaled spectral-resolved cathodoluminescence of grains in bariumtitanate ceramicsKOSCHEK, G; KUBALEK, E.Physica status solidi. A. Applied research. 1983, Vol 79, Num 1, pp 131-139, issn 0031-8965Article
Piezoelectric ceramics. A class of ceramics that offers efficiency and miniaturizationKOLM, E. A; KOLM, H. H.Materials engineering. 1984, Vol 99, Num 2, pp 43-47, issn 0025-5319Article
Densification of sintered lead zirconate titanate by hot isostatic pressingEWSUK, K. G; MESSING, G. L.Journal of materials science. 1984, Vol 19, Num 5, pp 1530-1534, issn 0022-2461Article
Maxwell-Wagner relaxation and degradation of SrTiO3 and BaTiO3 ceramicsNEUMANN, H; ARLT, G.Ferroelectrics (Print). 1986, Vol 69, Num 3-4, pp 179-186, issn 0015-0193Article
Production of dense and fine grain size BaTiO3 by fast firingMOSTAGHACI, H; BROOK, R. J.Transactions and journal of the British Ceramic Society. 1983, Vol 82, Num 5, pp 167-170, issn 0307-7357Article
Bismuth sodium titanate based lead-free ultrasonic transducer for microelectronics wirebonding applicationsCHAN, H. L. W; CHOY, S. H; CHONG, C. P et al.Ceramics international. 2008, Vol 34, Num 4, pp 773-777, issn 0272-8842, 5 p.Conference Paper
Characterization and sintering of lead zirconate-titanate powdersCHO, S. H; BIGGERS, J. V.Journal of the American Ceramic Society. 1983, Vol 66, Num 10, pp 743-746, issn 0002-7820Article
Piezoelectric ceramicsDURAN, P; MOURE, C.Materials chemistry and physics. 1986, Vol 15, Num 3-4, pp 193-211, issn 0254-0584Article
Ambient-temperature formation of metal titanates from ilmenite (FeTiO3)WELHAM, N. J.Journal of materials science. 1998, Vol 33, Num 7, pp 1795-1799, issn 0022-2461Article
Titanium pyrochlore magnets: how much can be learned from magnetization measurements?PETRENKO, O. A; LEES, M. R; BALAKRISHNAN, G et al.Journal of physics. Condensed matter (Print). 2011, Vol 23, Num 16, issn 0953-8984, 164218.1-164218.5Article
Structural and electrical conductivity studies on (M, V)-TiO2 (M = Al, Cr, Fe) rutile solid solutions at high temperatureTENA, M. A; LLUSAR, M; BADENES, J. A et al.Journal of materials science. Materials in electronics. 2004, Vol 15, Num 4, pp 265-270, issn 0957-4522, 6 p.Article
Electrical and mechanical properties of new type interconnecter for SOFCNISHI, T; HISATOME, N; YAMAMOTO, H et al.Advances in science and technology. 1999, pp 41-45, isbn 88-86538-25-1Conference Paper
On the photoluminescence of semiconducting titanates applied in photoelectrochemical cellsDE HAART, L. G. J; DE VRIES, A. J; BLASSE, G et al.Journal of solid state chemistry (Print). 1985, Vol 59, Num 3, pp 291-300, issn 0022-4596Article
Ternary titanates as anode materials for solid oxide fuel cellsSTEINER, H.-J; MIDDLETON, P. H; STEELE, B. C. H et al.Journal of alloys and compounds. 1993, Vol 190, Num 2, pp 273-285, issn 0925-8388Article
The peculiarities of the electronic structure of BaTiO3 in the ATiO3 (A=Ca, Sr, Ba) seriesNEMOSHKALENKO, V. V; TIMOSHEVSKII, A. N.Physica status solidi. B. Basic research. 1985, Vol 127, Num 1, pp 163-173, issn 0370-1972Article
Photoluminescence properties of ordered Bi4―xNdxTi3O12 matrix supported by 3-dimensional silicon microchannel plateMIAO, F. J; TAO, B. R; JIANG, K et al.Journal of physics. D, Applied physics (Print). 2013, Vol 46, Num 31, issn 0022-3727, 315105.1-315105.5Article
Particularités de la structure électronique du titanate de baryumNEMOSHKALENKO, V. V; TIMOSHEVSKIJ, A. N.Metallofizika (Kiev). 1985, Vol 7, Num 4, pp 13-21, issn 0204-3580Article
Spectres du rendement de l'effet photoélectrique et structure électronique des titanates à structure perovskiteSHVEJTSER, I. G; MAZURITSKIJ, M. I; PROKOPALO, O. I et al.Fizika tverdogo tela. 1983, Vol 25, Num 8, pp 2273-2278, issn 0367-3294Article
Structurally frustrated relaxor ferroelectric behavior in CaCu3Ti4O12YUN LIU; WITHERS, Ray L; XIAO YONG WEI et al.Physical review B. Condensed matter and materials physics. 2005, Vol 72, Num 13, pp 134104.1-134104.4, issn 1098-0121Article
Dépendance thermique de la rigidité diélectrique de la ferrocéramiqueDAKHIYA, M. S; ZAKREVSKIJ, V. A; SLUTSKER, A. I et al.Žurnal tehničeskoj fiziki. 1984, Vol 54, Num 3, pp 629-632, issn 0044-4642Article
RELEASE OF OXYGEN DURING THE SINTERING OF DOPED BATIO3 CERAMICSDROFENIK M; POPOVIC A; IRMANCNIK L et al.1982; JOURNAL OF THE AMERICAN CERAMIC SOCIETY; ISSN 0002-7820; USA; DA. 1982; VOL. 65; NO 12; PP. C.203-C.204; BIBL. 11 REF.Article
Les matériaux de transducteurs piézoélectriques industriels. Leurs défauts. Les recherches actuelles . I = Industrial piezoelectric transducer materials. Defects. Present researches. IEYRAUD, L.Silicates industriels. 1985, Vol 50, Num 7-8, pp 97-101, issn 0037-5225Article
FABRICATION STUDIES ON PEROVSKITE, ZIRCONOLITE, BARIUM ALUMINUM TITANATE, AND SYNROC-BBUYKX WJ; CASSIDY DJ; WEBB CE et al.1981; BULL.-AM. CERAM. SOC.; ISSN 0002-7812; USA; DA. 1981; VOL. 60; NO 12; PP. 1284-1288; BIBL. 9 REF.Article
Why spin ice obeys the ice rulesISAKOV, S. V; MOESSNER, R; SONDHI, S. L et al.Physical review letters. 2005, Vol 95, Num 21, pp 217201.1-217201.4, issn 0031-9007Article