Scientific-Technical Areas
Thematic lines
The objective of this line is to assess the behavior of materials in the integrated production, storage, and conversion of energy, adding cutting-edge expertise to new methodologies such as materials informatics and life cycle assessment. It involves studying and characterizing materials from the design and manufacturing phases to their durability and disposal as waste.
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Electrochemical production and conversion of hydrogen (electrolyzers and fuel cells)
Materials for Energy Storage and Conversion
Thermochemical Processing
Conversión electroquímica de energía e hidrógeno en celdas reversibles de óxido sólido utilizando óxidos de alta entropía como electrodos
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Development of models, scenarios and analysis of sustainability of energy technologies and systems
Materials for Extreme Environments
Cualificación y análisis de ciclo de vida de materiales sostenibles fabricados por fabricación aditiva mediante técnicas screening
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Materials for Nuclear Energy
Desarrollo de tecnologías de fabricación avanzadas para la obtención de grandes componentes que mejoren la competitividad del tejido industrial español en Fusión
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Atmospheric Modeling
Characterization and Control of Atmospheric Pollution
Effects on Agrosystems and Ecosystems of Atmospheric Pollution and Climate Change
Materials for Energy Storage and Conversion
Persistent organic pollutants and emerging pollutants in the environment
Desarrollo de un programa de seguimiento de la calidad del aire y monitorización de sus efectos en la Red de Parques Nacionales
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Development of models, scenarios and analysis of sustainability of energy technologies and systems
Electrochemical production and conversion of hydrogen (electrolyzers and fuel cells)
Materials for Energy Storage and Conversion
Desarrollo y aplicación de un nuevo concepto de célula electroquímica para la generación de hidrógeno y electricidad
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Materials for Nuclear Energy
Ensuring Assessment of Safety Innovations for SMR
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Materials for Energy Storage and Conversion
Thermochemical Processing
Estudio de obtención, almacenamiento y distribución de energía e hidrógeno renovables a partir de biomasa como vector para una transición energética sostenible
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Advanced Materials for Energy and Environmental Applications
Materials for Nuclear Energy
Technologies for Fusion Reactors
Estudio sobre nuevas barreras anti corrosión y permeación
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Development of models, scenarios and analysis of sustainability of energy technologies and systems
Materials for Nuclear Energy
Particle Accelerators
Social research on sustainability, environmental and technological risks
Eurofusion under Horizon Europe
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Materials for Nuclear Energy
Technologies for Fusion Reactors
Extracción de hidrógeno de metales líquidos en fusión
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Materials for Nuclear Energy
Innovative Structural Materials for Fission and Fusion
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Advanced Materials for Energy and Environmental Applications
Development of models, scenarios and analysis of sustainability of energy technologies and systems
Materials for Energy Storage and Conversion
Materiales grafénicos procedentes de residuos para aplicaciones energéticas renovables I
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Advanced Materials for Energy and Environmental Applications
Biochemical Processing
Materials for Energy Storage and Conversion
Obtención de BIOCHAR a partir de bioresiduos de la codigestión anaerobia para la descontaminación del aire
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Materials for Nuclear Energy
Recovery Annealing of VVER-1000 RPV model steels Exposed to high Neutron fluences to support LTO of LWRs
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Materials for Nuclear Energy
Technologies for Fusion Reactors
Tecnologías de Litio críticas para IFMIF-DONES
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Materials for Energy Storage and Conversion
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Materials for Extreme Environments
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Materials for Nuclear Energy
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Fusion Materials Laboratory
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Laboratorio de caracterización de materiales (MATCH LAB)
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Materials Corrosion Laboratory
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Mechanical testing Laboratory
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MATCH-Q08
Analysis of polar and apolar fractions (dicarboxylic acids, anhydrosugars, PAHs, quinones, up to 78 compounds) in samples of particulate matter from atmospheric aerosol by means of Gas Chromatography coupled to Mass Spectrometry (CG-MS).
Sample retained in filter
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MATCH-Q09
Determination of volatile organic compounds, VOCs (C5-C10), retained in Ténax/Carbotrap tubes, in air samples, by thermal desorption coupled to gas chromatography with mass spectrometry detector.
Sample retained in filter
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MATCH-Q10
Determination of siloxanes in biogas samples (CROMOSORB 102 tube retention) using Gas Chromatography coupled to Mass Spectrometry (CG-MS).
Sample retained in filter. Does not include sampling
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MATCH-Q11
Determination of volatile organic compounds VOCs (C5-C10) in biogas samples (retained on activated carbon) using Gas Chromatography coupled to Mass Spectrometry (CG-MS).
Solid state sample
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MATCH-Q12
Analysis of total petroleum hydrocarbons (TPH) with aliphatic and aromatic chain separation in culture medium samples using Gas Chromatography and Flame Ionization Detector (CG-FID).
Sample in liquid state. Determination of groups of aromatic and aliphatic compounds in liquid samples
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MATCH-Q15
Analysis of polychlorinated biphenyls (PCB-28, PCB-52, PCB-101, PCB-118, PCB-138, PCB-153, PCB-180) in soil and sediment samples using Gas Chromatography coupled to Mass Spectrometry (CG-MS).
Solid state sample
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MATCH-Q16
Analysis of organochlorine pesticides (Hexacyclohexane, Hexachlorobenzene, Simazine, Atrazine, Tercbutylazine, Aldrin, Metachlor, Isodrin, Dieldrin, Endrin and DDT derivatives) in soil and sediment samples by means of Gas Chromatography coupled to Mass Sp
Solid state sample
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MATCH-Q17
Determination of phospholipid-associated long-chain organic acids (PLFA'S) in soil samples using Gas Chromatography with Flame Ionization Detector (CG-FID).
Solid state sample
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MATCH-Q18
Analysis of total petroleum hydrocarbons (TPH) with separation of aliphatic and aromatic chains in soil and sediment samples using Gas Chromatography and Flame Ionization Detector (CG-FID).
Solid state sample
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MATCH-R03
Determination of carbonyl compounds (C1-C5) in air samples using cartridges impregnated with 2-Dinitrophenylhydrazine and analysis by Liquid Chromatography.
Sample on filter. Does not include sampling
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MATCH-R04
Determination of 16 priority polycyclic aromatic hydrocarbons (PAHs) in soil samples and particulate matter by Liquid Chromatography with fluorescence detectors and diodes.
Sample in solid state or retained in filter
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MATCH-R05
Determination of polycyclic aromatic hydrocarbons, nitro-naphthalene, nitro-phenantrene, nitro-pyrene, hydroxy-phenantrene and hydroxy-pyrene in samples of particulate matter by liquid chromatography with fluorescence detectors and diodes.
Sample in solid state or retained in filter
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MATCH-R06
Determination of priority polycyclic aromatic hydrocarbons (PPHCs), benzene, toluene and xylenes in isopropanol solution samples from biomass gasification tars using Liquid Chromatography with fluorescence detectors and diodes.
The nature of the samples are solutions in isopropanol containing an immersed particulate filter, according to CEN/TS 15493; 2006).
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MATCH-S01
Characterization of sludge samples from steam generators. Chemical (by FRX, elemental analysis, ion chromatography, DRX, EDX-SEM) and physical characterization (optical microscopy, metallographic preparation, SEM, SEM-EDX, porosity, mapping ..) in sludge
Rate valid for 1 or 2 solid samples
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MATCH-S02
Characterization of sludge samples from steam generators. Chemical (by FRX, elemental analysis, ion chromatography, DRX, EDX-SEM) and physical characterization (optical microscopy, metallographic preparation, SEM, SEM-EDX, porosity, mapping ..) in sludge
Rate valid for 3 to 5 solid samples
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MATCH-S03
Characterization of sludge samples from steam generators. Chemical (by FRX, elemental analysis, ion chromatography, DRX, EDX-SEM) and physical characterization (optical microscopy, metallographic preparation, SEM, SEM-EDX, porosity, mapping ..) in sludge
Rate valid for 6 or more solid samples
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MATCH-S04
Characterization of sludge samples from steam generators. Chemical (by FRX, elemental analysis, DRX, EDX-SEM) and physical characterization (optical microscopy, metallographic preparation, SEM, SEM-EDX, porosity, mapping ..) in sludge from the secondary c
Rate valid for 1 or 2 solid samples
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MATCH-S05
Characterization of sludge samples from steam generators. Chemical (by FRX, elemental analysis, DRX, EDX-SEM) and physical characterization (optical microscopy, metallographic preparation, SEM, SEM-EDX, porosity, mapping ..) in sludge from the secondary c
Rate valid for 3 to 5 solid samples
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MATCH-S06
Characterization of sludge samples from steam generators. Chemical (by FRX, elemental analysis, DRX, EDX-SEM) and physical characterization (optical microscopy, metallographic preparation, SEM, SEM-EDX, porosity, mapping ..) in sludge from the secondary c
Rate valid for 6 or more solid samples