1. Xavier Palmer Paricio, Obtención de capas superconductoras y microfibras cerámicas mediante
    deposición de soluciones químicas, 09/11/2018 PS: OXOLUTIA S.L.
  2. Jordi Martínez-Esaín, The Surface Chemistry of Metal Fluoride Nanocrystals, 31/10/2018
  3. Bernat Mundet Bolos, Atomic-scale characterization of structural distortions in perovskite oxide
    thin films, 08/10/2018
  4. Bohores Villarejo Reina, Synthesis and Growth of Superconducting Coated Conductors from
    Chemical Solutions, 14/09/2018, S: Researcher, Saule Technology, Poland.
  5. Ziliang Li, Fast growth of nanostructured coated conductors from chemical solutions, 19/07/2018,
    PS: Researcher, China.



  1. Juan Carlos González-Rosillo, Volume resistive switching in metallic perovskite oxides driven by the metal-insulator transition, 26/06/2017, PS: Post-doc,  MIT, Boston, USA.
  2. Changyong Lu, Synthesis and Characterization of Magnetic Nanocomposites and Their Applications
    Study, 20/07/2017, PS: Post-doc, University of Copenhagen, Denmark.



  1. Neus Romà Buyreu, Estudio de soluciones precursoras para el crecimiento de capas superconductoras gruesas por el método de deposición de soluciones químicas, 16/02/2015, PS: Scientific Service Technician, ICMAB, Spain.
  2. Bernat Bozzo Closas, Superconducting joining of melt texture YBCO bulks, 03/02/2016, PS: Scientific Service Technician, ICMAB, Spain.
  3. Ana Esther Carrillo Fernández, Mecanismos de crecimiento y desarrollo microestructural de cerámicas superconductoras texturadas, 08/02/2016, PS: Scientific Service Technician, ICMAB, Spain.
  4. Lidia Ferrer, Cholesterol and compressed CO2: a smart molecular buiding block and advantageous solvent to prepare stable self-assembled colloidal nanostructures, 26/02/2016, PS: NANOMOL Technologies S.L., Spain.
  5. Pablo Cayado Llosa, Multifunctional nanostructured superconductors by chemical routes: towards high current conductors, 17/03/2016, PS: Post-doc, KIT, Karlsruhe, Germany.
  6. Alba Garzón Manjón, Synthesis of Metal Oxide Nanoparticles for Superconducting Nanocomposites and other applications, 04/11/2016, PS: Post-doc , MPI Dusseldorf, Germany.




  1. Albert Queraltó López, Growth of functional oxide heterostructures from chemical solutions using advanced processing mathodologies, 16/02/2015, PS: Post-doc Köln University, Cologne Germany.
  2. Konstantina Konstantopoulou, Mechanical behavior of 2G REBCO HTS at 77 and 300 K, 19/02/2015, PS: Post-doc, CERN, Switzerland.
  3. Rafael Ortega Hernandez, Resistive memory devices based on complex oxides, 18/12/2015, PS: Post-doc UNAM, Mexico.




  1. Marta Vilardell Navarro, Inkjet-printing deposition of ceramic coatings, 8/05/2014, PS: Researcher, D&K Engineering, Sant Cugat, Spain..
  2. Víctor Rouco Gómez, Transport and vortex pinning mechanisms in superconductor ferromagnetic hybrid systems, 26/02/2014, PS: Post-doc Thales- CNRS, Paris, France.




  1. Eduardo Solano Minuesa, Synthesis and characterisation of ferrite nanoparticles for YBa2Cu3O7δ – Nanocomposite Superconducting Layers: a neutron and synchrotron study, 22/11/2013, PS: Researcher, ALBA Synchrotron, Spain .
  2. Leonardo Pérez Mirabet, Synthesis, characterization and functionalization of metal and metal oxide nanoparticles, TEM Microscopy study, 13/11/2013, PS: Science Teacher, Stucom Centre d’ Estudis, Harrogate, UK.
  3. César Fidel Sánchez, Crecimiento epitaxial de películas delgadas de YBa2Cu3O7-δ mediante soluciones químicas: análisis in-situ de la nucleación, el crecimiento y la oxigenación, 19/07/2013, PS: Nanomagnetics company, Mexico.
  4. Roger Guzmán Aluja, In-Depth Investigation of the Origin, Evolution and Interaction of Structural Defects in YBCO Nanocomposite Thin Films, 23/12/2013, PS: looking for a Post-doc.



  1. Jone Zabaleta Llorens, Growth and advanced characterization of solution-derived nanoscale La0:7Sr0:3MnO3 heteroepitaxial systems, 19/01/2012, PS: Post-doc Max Planck Intitute for Solid State Research, Solid State Quantum Electronics, Stuttgart, Germany.
  2. Josh Malowney, Ordered Patterns of Functional Oxide Nanostructures Grown from Chemical Solutions, 26/07/2012, PS: Project Engineer, SPIG Inc. San Diego, USA.




  1. Roberto F. Luccas, Estudio de la deformación de la red de vórtices por redes artificiales de defectos mediante decoración magnética Bitter en superconductores de alta temperatura, 06/07/2011, PS: Centro Atómico Bariloche, Argentina
  2. Valentina Roxana Vlad, Growth and characterization of chemical solution based nanostructured coated conductors with CeO2 cap layers, 30/05/2011, PS: Researcher, OXOLUTIA, S.L., Barcelona, Spain.
  3. Patricia Abellán Baeza, Transmission electron microscopy study of the interfacial structure of dissimilar materials grown by MOD and their structure-functionality relations, 05/2011, PS: Researcher, Electron Microscopy Darebusry Laboratory, UK.
  4. Fernando Martínez Julián, Uso de sales inorgánicas y nanopartículas en el crecimiento de capas delgadas superconductoras crecidas por CSD, 14/01/2011, PS: Post-doc, Instituto Tecnológico de la Energia (ITE), University Jaume I de Castellón, Spain.




  1. Adrián Carretero Genevrier, Synthesis and self-assembly of 1D manganese-based complex oxides from template directed chemical solution deposition, 19/11/2010, PS: Researcher, CNRS, Montpellier, France.
  2. Anna Llordés Gil, Superconducting nanocomposite films grown by chemical solution deposition: synthesis, microstructure and properties, 03/05/2010, PS: Researcher, Energygune, Vitoria, Spain.
  3. César Moreno Sierra, New features in solution derived LSMO thin films: spontaneous outcropping and nanoscale reversible switching, 15/01/2010, PS: Researcher, ICN2, Barcelona, Spain.





  1. Katerina Zalamova, Fast growth rate of superconducting coated conductors based on metal-organic chemical solutions, 27/05/2009, PS: Entrepreneur, Barcelona, Spain
  2. Susset Muñoz Pérez, Síntesis, propiedades magnéticas y de transporte del pirocloro Eu2Ru2O7, 18/11/2009, PS: Post-doc, Toronto, Canadá.
  3. Joaquim Lloberas Valls, Hacia el motor superconductor. Motores de flujo axial de campo atrapado con muestras de YBCO, 02/2009, PS: Project Engineer, Electric Engineering Area, IREC, Barcelona, Spain.
  4. Marta Gibert Gutiérrez, Self-assembled strain-induced oxide nanostructures grown by chemical solutions, 09/02/2009, PS: Associated Professor, Université de Genève, Switzerland.





  1. Joffre Gutiérrez Royo, Transport properties and Vortex pinning mechanisms of Nanostructured YBCO thin films and Coated Conductors, 04/06/2008, PS: Científico Titular, ICMAB-CSIC, Barcelona, Spain.





  1. Jaume Gázquez Alabart, TEM investigation of growth mechanisms and microestructure of model YBCO coated conductor architectures deposited by metalorganic decomposition, 19/01/2007, PS: Ramón y Cajal, ICMAB-CSIC, Barcelona, Spain.
  2. Mariona Coll Bau, Chemical solution deposition of oxide buffer and superconducting layers for YBCO coated conductors, 12/01/2007, PS: Científico Titular, ICMAB-CSIC, Barcelona, Spain.





  1. Anna Palau Masoliver, Critical currents and dissipation of grain boundary networks in coated conductors, 28/02/2005, PS: Científico Titular, ICMAB-CSIC, Barcelona, Spain.
  2. Juan Carlos González, Coated conductors and TFA films: A micro-Raman spectroscopy study, 24/02/2005, PS: Post.doc ICMSE-CSIC, Sevilla, Spain.
  3. Andrea Cavallaro, Optimization of chemical solution deposited buffer layers for YBa2Cu3O7 coated conductor development, 11/07/2005, PS: Post-doc Faculty of Engineering, Department of Materials, Imperial College, London,





  1. David Martínez Bastidas, Optimización y procesado de materiales superconductores de base mercurio de la familia HgBaCaCuO, 04/2004, PS: Ramón y Cajal, CENIM-CSIC, Madrid, Spain.
  2. Simona Iliescu, Soldaduras superconductoras de cerámicas texturadas de YBCO con soldante de Ag, 10/12/2004, PS: Innovation Manager, CPT- UB, Barcelona, Spain.
  3. Oscar Castaño Linares, Fabricación de cintas superconductoras de YBaCuO de altas corrientes críticas, 06/2004, PS: Rechercher, Bion/non-bio Interactions for Regenerative Medicine Group, IBEC, Barcelona, Spain.


Institut de Ciència de Materials de Barcelona ICMAB CSIC


Campus de la UAB, 08193 Bellaterra, Barcelona, Spain
+34 935 801 853 ext 371