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Thermoelectric High EntRopy MAteriaLs – THERMAL
The aim of this project is to show the potential of high-entropy materials (oxides and chalcogenides) for thermoelectric applications. In the current environmental and economic context, the demand for clean and renewable alternative energies is important. Thermoelectric modules, which convert heat
Enzyme engineering for the microbial production of enhanced pyoverdines for biomedical applications. – PYOCLICK
Combinatorial biosynthesis relies on enzyme and metabolic engineering approaches aimed at modifying the production of natural peptides, particularly by incorporating non-canonical amino acids (ncAAs) into their sequence. This strategy generates peptides carrying functional groups for bioconjugation,
Inclusive and sustainable urban mobility for youth – based on the perception of mobility systems – NextGenMobility
The NextGenMobility project seeks to create inclusive, sustainable urban mobility solutions tailored to the needs of young people by addressing their perceptions and usage of mobility systems. It emphasizes enhancing accessibility, safety and sustainability within urban environments, focusing on you
MEchanism for LOw thermal conDuctivitY – MELODY
How low the thermal conductivity of a solid can be ? This question is of fundamental and technological interest. Designing materials with low thermal conductivity has become a crucial technological challenge for thermoelectric devices or thermal barrier applications. The MELODY project aims at solvi
Interdisciplinary and multi-tracer scientific exploitation of the GEOTRACES GEOVIDE cruise results, through modelling and observations – GEOMOBS
The scientific analysis of trace elements and isotopes (TEIs) data in the ocean, obtained through GEOTRACES cruises, is often conducted using simplified tools such as box models, one-dimensional models, or optimal multiparametric analyses. These approaches generally do not allow for the full integra
COupled experimeNtal/theory study oF electrochemical inteRfaces fOr N2 reducTion into green ammonia – CONFRONT
The CONFRONT project brings together two experimental teams and one theoretical team to deepen the understanding of electrocatalysis, focusing on the nitrogen reduction reaction (NRR). This reaction is essential for producing ammonia and replacing the current Bosch process, which is energy-intensive
Tailoring energy transfer and transport mechanisms in metal oxide - metal nanoparticles heterostructures for enhanced light harvesting – TETROX
Metal oxides (MO) decorated with metal nanoparticles (NPs) have demonstrated an enormous applicative potential in domains such as chemical sensing, photovoltaics, visible light photodegradation, photocatalytic materials, photoelectrochemical water splitting or photodetectors. It is believed that the
AEM-EC - Reduced production costs – HyReCo
The planned project HyReCo will develop a cost-effective, robust open-source AEM cell designed for industrial mass production that can be implemented in the stack or system and used in a wide range of application scenarios. The main targets are the reduction of production costs for single components
Structural optimization and preclinical validation of ABCB4 correctors – SOPREVAC
Bile secretion facilitates the digestion of dietary fats and the elimination of endogenous and exogenous toxic substances. This vital function is carried out by the liver and begins at the canalicular membrane of hepatocytes, wherein transmembrane proteins such as the ABCB4 transporter secrete phosp
Elliptic systems with sharp transition on optimal sets – ESSTOS
This project lies at the interface between the calculus of variations and non linear analysis applied to condensed matter physics on the one hand, and geometric measure theory and transport models in urban planning on the other hand. We are particularly interested in models where the energy concent
