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
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
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
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
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
Materials for Nuclear Energy

Ensuring Assessment of Safety Innovations for SMR
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
Advanced Materials for Energy and Environmental Applications

Materials for Nuclear Energy

Technologies for Fusion Reactors

Estudio sobre nuevas barreras anti corrosión y permeación
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
Materials for Nuclear Energy

Technologies for Fusion Reactors

Extracción de hidrógeno de metales líquidos en fusión
Materials for Nuclear Energy

Innovative Structural Materials for Fission and Fusion
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
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
Materials for Nuclear Energy

Recovery Annealing of VVER-1000 RPV model steels Exposed to high Neutron fluences to support LTO of LWRs
Materials for Nuclear Energy

Technologies for Fusion Reactors

Tecnologías de Litio críticas para IFMIF-DONES