Miguel A. Laguna-Bercero
Miguel A. Laguna-Bercero
Instituto de Nanociencia y Materiales de Aragón CSIC-Universidad de Zaragoza
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Recent advances in high temperature electrolysis using solid oxide fuel cells: A review
MA Laguna-Bercero
Journal of Power sources 203, 4-16, 2012
Electrolyte degradation in anode supported microtubular yttria stabilized zirconia-based solid oxide steam electrolysis cells at high voltages of operation
MA Laguna-Bercero, R Campana, A Larrea, JA Kilner, VM Orera
Journal of Power Sources 196 (21), 8942-8947, 2011
Performance of solid oxide electrolysis cells based on scandia stabilised zirconia
MA Laguna-Bercero, SJ Skinner, JA Kilner
Journal of Power Sources 192 (1), 126-131, 2009
Raman spectroscopic study of cation disorder in poly-and single crystals of the nickel aluminate spinel
MA Laguna-Bercero, ML Sanjuán, RI Merino
Journal of Physics: Condensed Matter 19 (18), 186217, 2007
Performance and Characterization of (La, Sr)MnO3/YSZ and La0.6Sr0.4Co0.2Fe0.8O3 Electrodes for Solid Oxide Electrolysis Cells
MA Laguna-Bercero, JA Kilner, SJ Skinner
Chemistry of Materials 22 (3), 1134-1141, 2010
Improved stability of reversible solid oxide cells with a nickelate-based oxygen electrode
MA Laguna-Bercero, H Monzón, A Larrea, VM Orera
Journal of Materials Chemistry A 4 (4), 1446-1453, 2016
Development of oxygen electrodes for reversible solid oxide fuel cells with scandia stabilized zirconia electrolytes
MA Laguna-Bercero, JA Kilner, SJ Skinner
Solid State Ionics 192 (1), 501-504, 2011
Performance of La2–xSrxCo0.5Ni0.5O4±δ as an Oxygen Electrode for Solid Oxide Reversible Cells
MA Laguna‐Bercero, N Kinadjan, R Sayers, H El Shinawi, C Greaves, ...
Fuel Cells 11 (1), 102-107, 2011
Performance and aging of microtubular YSZ‐based solid oxide regenerative fuel cells
MA Laguna‐Bercero, R Campana, A Larrea, JA Kilner, VM Orera
Fuel Cells 11 (1), 116-123, 2011
Tailoring the electrode-electrolyte interface of Solid Oxide Fuel Cells (SOFC) by laser micro-patterning to improve their electrochemical performance
JA Cebollero, R Lahoz, MA Laguna-Bercero, A Larrea
Journal of Power Sources 360, 336-344, 2017
High performance of microtubular solid oxide fuel cells using Nd 2 NiO 4+ δ-based composite cathodes
MA Laguna-Bercero, AR Hanifi, H Monzon, J Cunningham, TH Etsell, ...
Journal of Materials Chemistry A 2 (25), 9764-9770, 2014
Design of industrially scalable microtubular solid oxide fuel cells based on an extruded support
H Monzón, MA Laguna-Bercero, A Larrea, BI Arias, A Varez, B Levenfeld
International journal of hydrogen energy 39 (10), 5470-5476, 2014
Steam electrolysis using a microtubular solid oxide fuel cell
MA Laguna-Bercero, R Campana, A Larrea, JA Kilner, VM Orera
Journal of The Electrochemical Society 157 (6), B852, 2010
Fabrication methods and performance in fuel cell and steam electrolysis operation modes of small tubular solid oxide fuel cells: a review
VM Orera, MA Laguna-Bercero, A Larrea
Frontiers in Energy Research 2, 22, 2014
The effect of electrode infiltration on the performance of tubular solid oxide fuel cells under electrolysis and fuel cell modes
AR Hanifi, MA Laguna-Bercero, TH Etsell, P Sarkar
International journal of hydrogen energy 39 (15), 8002-8008, 2014
Reversible operation of microtubular solid oxide cells using La0. 6Sr0. 4Co0. 2Fe0. 8O3-δ-Ce0. 9Gd0. 1O2-δ oxygen electrodes
MJ López-Robledo, MA Laguna-Bercero, A Larrea, VM Orera
Journal of Power Sources 378, 184-189, 2018
Investigation of graded La2NiO4+ δ cathodes to improve SOFC electrochemical performance
M Rieu, R Sayers, MA Laguna-Bercero, SJ Skinner, P Lenormand, ...
Journal of The Electrochemical Society 157 (4), B477, 2010
Structured porous Ni-and Co-YSZ cermets fabricated from directionally solidified eutectic composites
MA Laguna-Bercero, A Larrea, JI Pena, RI Merino, VM Orera
Journal of the European Ceramic Society 25 (8), 1455-1462, 2005
Tailoring the microstructure of a solid oxide fuel cell anode support by calcination and milling of YSZ
AR Hanifi, MA Laguna-Bercero, NK Sandhu, TH Etsell, P Sarkar
Scientific reports 6 (1), 27359, 2016
Effects of using (La0. 8Sr0. 2) 0.95 Fe0. 6Mn0. 3Co0. 1O3 (LSFMC), LaNi0. 6Fe0. 4O3− δ (LNF) and LaNi0. 6Co0. 4O3− δ (LNC) as contact materials on solid oxide fuel cells
A Morán-Ruiz, K Vidal, MÁ Laguna-Bercero, A Larrañaga, MI Arriortua
Journal of Power Sources 248, 1067-1076, 2014
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