ServiceUpdated on 9 July 2025
Materials Acceleration Platform - Nanocomposite Optimization System
About
The Self-driving laboratory accelerates the design and testing of new materials, with a particular focus on polymer and polymer-based nanocomposites, including nanocomposites involving advanced materials such as MOFs, materials involving recycled polymer matrices, solution-processed materials for sustainability, and bio-applications.
The automated platform systematically evaluates their mechanical properties, processability, 3D printability, and degradation profiles.
This process generates a rich dataset for our data infrastructure, which is built to capture the complex composition-processing-property relationships, enabling to directly compare experimental results with computational models.
Applies to
- ELECTRIC VEHICLE (EV) BATTERIES RECYCLING, REUSE
- CIRCULAR ECONOMY IN THE TEXTILE INDUSTRY
- ENHANCING DIGITALIZATION IN CIRCULAR ECONOMY PROCESSES
Organisation
Similar opportunities
Expertise
R&D projects on battery recycling
- ENERGY
- ENVIROMENT
- ELECTRIC VEHICLE (EV) BATTERIES RECYCLING, REUSE
Cristina Alvarez Requena
Director of Innovation, Technological Development and Strategic Alliances at IMDEA Energy
Móstoles (Madrid), Spain
Expertise
- ELECTRIC VEHICLE (EV) BATTERIES RECYCLING, REUSE
Coveless Robotic Solutions
SME at COVELESS
Badajoz, Spain
Project cooperation
- Looking for Partners
- Looking for Consortium / Coordinator
- Circular Economy in Textile Industry
- Construction and Demolition Waste (CDW) Circularity,
- Electric Vehicles (EV) Batteries Recycling and Reuse
María Ángeles Martínez
Head of the Unit of POPs and Emerging Pollutants in Enviromnent and Professor at CIEMAT (Spain) at Research Centre on Energy, Environment and Technology (CIEMAT)
Madrid, Spain