Search Results - "VIDAL, Karmele"

Analysis of the influence of microencapsulated phase change materials on the behavior of a new generation of thermo-regulating shape memory polyurethane fibers by Laza, José Manuel, Veloso-Fernández, Antonio, Sanchez-Bodon, Julia, Martín, Ane, Goitandia, Amaia M., Monteserín, Cristina, Mendibil, Xabier, Vidal, Karmele, Lambarri, Jon, Aranzabe, Estibaliz, Blanco, Miren, Vilas-Vilela, José Luis

“…The present work is a first approach in order to achieve thermo-sensitive and waterproof polyurethane fibers useful in the textile industry. For this, two…”
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Preparation and characterisation of photocatalytic pigments for architectural mortar based on ultramarine blue by Aranzabe, Estíbaliz, Blanco, Miren, Goitandia, Amaia M., Vidal, Karmele, Casado, María, Cubillo, Jose

“…Architectural mortar is used in the building sector when aesthetic surface value is required and therefore, these surfaces present a great potential to be used…”
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Evaluation of using protective/conductive coating on Fe-22Cr mesh as a composite cathode contact material for intermediate solid oxide fuel cells by Morán-Ruiz, Aroa, Vidal, Karmele, Larrañaga, Aitor, Porras-Vázquez, Jose Manuel, Slater, Peter Raymond, Arriortua, María Isabel

“…An uncoated and MnCo1.9Fe0.1O4 (MCF) coated Fe-22Cr meshes were dipped into LaNi0.6Fe0.4O3−δ (LNF) slurry to form a continuous protective/conductive layer for…”
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Development of Co3-xNixO4 materials for thermochemical energy storage at lower red-ox temperature by Portilla-Nieto, Yasmina, Zaki, Abdelali, Vidal, Karmele, Hernaiz, Marta, Aranzabe, Estibaliz, Doppiu, Stefania, Faik, Abdessamad

“…Heat storage technologies are subject of great research efforts aimed at improving the energy efficiency of power plants and heat recovery processes. In this…”
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Characterization of Ln4Al2O9 (Ln=Y, Sm, Eu, Gd, Tb) rare-earth aluminates as novel high-temperature barrier materials by Morán-Ruiz, Aroa, Vidal, Karmele, Larrañaga, Aitor, Arriortua, María Isabel

“…A family of cuspidine-type rare-earth (RE) aluminates with the general formula Ln4Al2O9 (Ln= Y, Sm, Eu, Gd, Tb) was prepared for potential use as…”
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Development of fluorine-free waterborne textile finishing agents for anti-stain and solvent-water separation based on low surface energy (co)polymers by Lacruz, Amado, Salvador, Mireia, Blanco, Miren, Vidal, Karmele, Martínez de Ilarduya, Antxon

“…[Display omitted] •Fluorine-free waterborne (co)polymethacrylates for textile finishing are synthesized.•Polymer coatings are partially biobased, VOC-free and…”
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Development and stabilization of Co2.4Ni0.6O4 material for long-term thermochemical energy storage by Portilla-Nieto, Yasmina, Vidal, Karmele, Hernaiz, Marta, Aranzabe, Estibaliz, Doppiu, Stefania, Palomo del Barrio, Elena

“…Redox thermochemical energy storage is one of the most promising technologies to achieve dispatchability in concentrated solar power applications. Compared to…”
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Laser machining of LaNi0.6M0.4O3−δ (M: Co, Fe) dip-coated on a Fe–22Cr mesh material to obtain a new contact coating for SOFC: Interaction between Crofer22APU interconnect and La0.6Sr0.4FeO3 cathode by Morán-Ruiz, Aroa, Vidal, Karmele, Larrañaga, Aitor, Porras-Vázquez, Jose Manuel, Slater, Peter Raymond, Arriortua, María Isabel

“…A Fe–22Cr mesh was dipped into a ceramic (LaNi0.6M0.4O3−δ; M: Co, Fe) slurry to form a metallic/ceramic material as contact coating for solid oxide fuel cells…”
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Biobased Waterborne Polyurethane-Ureas Modified with POSS-OH for Fluorine-Free Hydrophobic Textile Coatings by Lacruz, Amado, Salvador, Mireia, Blanco, Miren, Vidal, Karmele, Goitandia, Amaia M., Martinková, Lenka, Kyselka, Martin, de Ilarduya, Antxon Martínez

“…Waterborne polyurethane-urea dispersions (WPUD), which are based on fully biobased amorphous polyester polyol and isophorone diisocyanate (IPDI), have been…”
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Effects of using (La0.8Sr0.2)0.95Fe0.6Mn0.3Co0.1O3 (LSFMC), LaNi0.6Fe0.4O3-δ (LNF) and LaNi0.6Co0.4O3-δ (LNC) as contact materials on solid oxide fuel cells by MORAN-RUIZ, Aroa, VIDAL, Karmele, LAGUNA-BERCERO, Miguel Angel, LARRANAGA, Aitor, ARRIORTUA, María Isabel

“…Three lanthanum-based perovskite ceramic compounds were studied as contact materials, (La0.8Sr0.2)0.95Fe0.6Mn0.3Co0.1O3 (LSFMC), LaNi0.6Fe0.4O3- delta (LNF)…”
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Biobased Waterborne Polyurethane-Urea/SWCNT Nanocomposites for Hydrophobic and Electrically Conductive Textile Coatings by Lacruz, Amado, Salvador, Mireia, Blanco, Miren, Vidal, Karmele, Goitandia, Amaia M., Martinková, Lenka, Kyselka, Martin, de Ilarduya, Antxon Martínez

“…Waterborne polyurethane-urea dispersions (WPUD), which are based on 100% bio-based semi-crystalline polyester polyol and isophorone diisocyanate, have been…”
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Femtosecond laser micromachining of metallic/ceramic composite material for solid oxide fuel cell devices by Morán-Ruiz, Aroa, Vidal, Karmele, Larrañaga, Aitor, Montero, Raúl, Arriortua, María Isabel

“…In a solid oxide fuel cell (SOFC), the high power output of interconnect/cathode interphase results from using a contact layer between both materials, which…”
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Effects of using (La sub(0.8)Sr sub(0.2)) sub(0.95)Fe sub(0.6)Mn sub(0.3)Co sub(0.1)O sub(3) (LSFMC), LaNi sub(0.6)Fe sub(0.4)O sub(3-[delta]) (LNF) and LaNi sub(0.6)Co sub(0.4)O sub(3-[delta]) (LNC) as contact materials on solid oxide fuel cells by Moran-Ruiz, Aroa, Vidal, Karmele, Laguna-Bercero, Miguel Angel, Larranaga, Aitor, Arriortua, Maria Isabel

“…Three lanthanum-based perovskite ceramic compounds were studied as contact materials, (La sub(0.8)Sr sub(0.2)) sub(0.95)Fe sub(0.6)Mn sub(0.3)Co sub(0.1)O…”
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Effects of synthesis conditions on the structural, stability and ion conducting properties of Li0.30(La0.50Ln0.50)0.567TiO3 (Ln=La, Pr, Nd) solid electrolytes for rechargeable lithium batteries by Vidal, Karmele, Ortega-San-Martín, Luis, Larrañaga, Aitor, Merino, Rosa Isabel, Orera, Alodia, Arriortua, María Isabel

“…The structure, thermal stability, morphology and ion conductivity of titanium perovskites with the general formula Li3xLn2/3−xTiO3 (Ln=rare earth element;…”
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LaNi0.6Co0 4O3− dip-coated on Fe–Cr mesh as a composite cathode contact material on intermediate solid oxide fuel cells by Morán-Ruiz, Aroa, Vidal, Karmele, Larrañaga, Aitor, Laguna-Bercero, Miguel Angel, Porras-Vázquez, Jose Manuel, Slater, Peter Raymond, Arriortua, María Isabel

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LaNi sub(0.6)Co sub(0.4)O sub( 3-[delta]) dip-coated on Fe-Cr mesh as a composite cathode contact material on intermediate solid oxide fuel cells by Moran-Ruiz, Aroa, Vidal, Karmele, Larranaga, Aitor, Laguna-Bercero, Miguel Angel, Porras-Vazquez, Jose Manuel, Slater, Peter Raymond, Arriortua, Maria Isabel

“…The feasibility of using Crofer22APU mesh dip coated with LaNi sub(0.6)Co sub(0.4)O sub(3-[delta]) (LNC) ceramic paste as a uniform contact layer on a…”
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LaNi0.6Co04O3-δ dip-coated on Fe-Cr mesh as a composite cathode contact material on intermediate solid oxide fuel cells by MORAN-RUIZ, Aroa, VIDAL, Karmele, LARRANAGA, Aitor, LAGUNA-BERCERO, Miguel Angel, PORRAS-VAZQUEZ, Jose Manuel, SLATER, Peter Raymond, ARRIORTUA, María Isabel

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Short-Range and Long-Range Magnetic Ordering, in Third Generation Brannerite Type Inorganic−Organic Vanadates: [{Mn(Bpy)}(VO3)2]≈(H2O)1.16 and [{Mn(Bpy)0.5}(VO3)2]≈(H2O)0.62 by Fernández de Luis, Roberto, Urtiaga, M. Karmele, Mesa, José L, Vidal, Karmele, Lezama, Luis, Rojo, Teófilo, Arriortua, María I

“…The three-dimensional [{Mn(Bpy)}(VO3)2]≈(H2O)1.16 and [{Mn(Bpy)0.5}(VO3)2]≈(H2O)0.62 inorganic−organic compounds, where Bpy is 4,4′-bipyridine, (C10H8N2), have…”
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The effect of doping in the electrochemical performance of (Ln1-xMx)FeO3-δ SOFC cathodes by VIDAL, Karmele, RODRIGUEZ-MARTINEZ, Lide M, ORTEGA-SAN-MARTIN, Luis, MARTINEZ-AMESTI, Ana, NO, María Luisa, ROJO, Teófilo, LARESGOITI, Ander, ISABEL ARRIORTUA, Maria

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The effect of doping in the electrochemical performance of (Ln@@d1-@@ix@@M@@d@@ix@@)FeO@@d3-@@id@@ SOFC cathodes by Vidal, Karmele, Rodriguez-Martinez, Lide M, Ortega-San-Martin, Luis, Martinez-Amesti, Ana, No, Maria Luisa, Rojo, Teofilo, Laresgoiti, Ander, Arriortua, Maria Isabel

“…A family of iron perovskites with the general formula AFeO@@d3-@@id@@ (A = Ln@@d1-@@ix@@M@@d@@ix@@; Ln = La, Nd and/or Pr; M = Sr or/and Ca) has been prepared…”
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