M. Lourdes Calzada
M. Lourdes Calzada
Professor at the Materials Science Institute of Madrid (ICMM-CSIC)
Verified email at - Homepage
Cited by
Cited by
Low-temperature crystallization of solution-derived metal oxide thin films assisted by chemical processes
I Bretos, R Jiménez, J Ricote, ML Calzada
Chemical Society Reviews 47 (2), 291-308, 2018
Synthesis and electrical characterization of thin films of PT and PZT made from a diol‐based sol‐gel route
YL Tu, ML Calzada, NJ Phillips, SJ Milne
journal of the American ceramic society 79 (2), 441-448, 1996
Low‐temperature processing of ferroelectric thin films compatible with silicon integrated circuit technology
ML Calzada, I Bretos, R Jiménez, H Guillon, L Pardo
Advanced Materials 16 (18), 1620-1624, 2004
Piezoelectric properties of Ca‐modified PbTiO3 thin films
AL Kholkin, ML Calzada, P Ramos, J Mendiola, N Setter
Applied physics letters 69 (23), 3602-3604, 1996
Sol-gel-derived lead titanate films
NJ Phillips, ML Calzada, SJ Milne
Journal of non-crystalline solids 147, 285-290, 1992
Activated solutions enabling low‐temperature processing of functional ferroelectric oxides for flexible electronics
I Bretos, R Jiménez, A Wu, AI Kingon, PM Vilarinho, ML Calzada
Advanced Materials 26 (9), 1405-1409, 2014
Lead‐Free Ferroelectric (Na1/2Bi1/2)TiO3–BaTiO3 Thin Films in the Morphotropic Phase Boundary Composition: Solution Processing and Properties
D Alonso‐Sanjosé, R Jimenez, I Bretos, ML Calzada
Journal of the American Ceramic Society 92 (10), 2218-2225, 2009
Multicomponent solutions for the deposition of modified lead titanate films
R Sirera, ML Calzada
Materials research bulletin 30 (1), 11-18, 1995
Stress-induced suppression of piezoelectric properties in thin films via scanning force microscopy
AL Kholkin, VV Shvartsman, AY Emelyanov, R Poyato, ML Calzada, ...
Applied physics letters 82 (13), 2127-2129, 2003
On the effects of stresses in ferroelectric (Pb, Ca) TiO3 thin films
J Mendiola, ML Calzada, P Ramos, MJ Martin, F Agulló-Rueda
Thin Solid Films 315 (1-2), 195-201, 1998
Investigations of a Diol‐based Sol‐Gel Process for the Preparation of Lead Titanate Materials
ML Calzada, R Sirera, F Carmona, B Jiménez
Journal of the American Ceramic Society 78 (7), 1802-1808, 1995
Sol-gel processing by inroganic route to obtain a TiO2 PbO xerogel as ceramic precursor
ML Calzada, L Del Olmo
Journal of non-crystalline solids 121 (1-3), 413-416, 1990
Lead zirconate titanate films from a diol-based sol-gel method
ML Calzada, SJ Milne
Journal of materials science letters 12, 1221-1223, 1993
Photo-sensitive sol–gel solutions for the low-temperature UV-assisted processing of PbTiO 3 based ferroelectric thin films
ML Calzada, A González, R Poyato, L Pardo
Journal of Materials Chemistry 13 (6), 1451-1457, 2003
Processing effects on the microstructure and ferroelectric properties of strontium bismuth tantalate thin films
R Jiménez, C Alemany, ML Calzada, A González, J Ricote, J Mendiola
Applied Physics A 75, 607-615, 2002
Ferroelectric thin films of calcium modified lead titanate by sol-gel processing
R Sirera, ML Calzada, F Carmona, B Jimenez
Journal of materials science letters 13, 1804-1805, 1994
Chemistry-crystallization-microstructure relations of sol-gel derived lanthanum modified lead titanate thin films
ML Calzada, M Algueró, L Pardo
Journal of sol-gel science and technology 13, 837-841, 1998
Photochemical solution processing of films of metastable phases for flexible devices: the β-Bi2O3 polymorph
D Pérez-Mezcua, I Bretos, R Jiménez, J Ricote, RJ Jiménez-Rioboó, ...
Scientific reports 6 (1), 39561, 2016
Defect-mediated ferroelectric domain depinning of polycrystalline BiFeO3 multiferroic thin films
I Bretos, R Jiménez, C Gutiérrez-Lázaro, I Montero, ML Calzada
Applied Physics Letters 104 (9), 2014
Texture development in modified lead titanate thin films obtained by chemical solution deposition on silicon‐based substrates
J Ricote, R Poyato, M Algueró, L Pardo, ML Calzada, D Chateigner
Journal of the American Ceramic Society 86 (9), 1571-1577, 2003
The system can't perform the operation now. Try again later.
Articles 1–20