Wave propagation in resonant metamaterials
Water4All 2022 Joint Transnational Call on “Management of water resources: resilience, adaptation and mitigation to hydroclimatic extreme events and management tools”
The Water4All partnership is starting in 2022 under the auspices of the European Union Horizon Europe programme for research and innovation, to concentrate research and innovation on water in Europe and beyond. Water4All’s Vision is to “boost the systemic transformations and changes across the entire research – water innovation pipeline, fostering the matchmaking between problem owners and solution providers for ensuring water security for all in the long term”.
Development of a new class of water-soluble fluorophores, optimized for near infrared imaging (NIR).<br />Functionalitzation of the boron center on the aza-BODIPYs, in order to develop new bimodal and theranostic agents.<br />Valorization of the systems by a preclinical study, aiming at the bimodal imaging and theranostic approach of cancers overexpressing PD-L1.
Water-rock interactions in the early Solar system: clues from Fe-serpentines in CM chondrites – CM2cron
Despite their primitive chemical composition, CM carbonaceous chondrites mostly consist of serpentines inherited from the aqueous alteration of their asteroidal parent body, during the early solar system history. Understanding the reactions by which those rocky bodies acquired their hydrous mineralogy is the motivation of the present project.
The fabrication of organic photovoltaic (OPV) devices implies the use of halogeno and/or aromatic solvent to process the active layer. In order to make this technology cleaner, it is necessary to move to eco-friendly solvent and water is the best one. This project aims at developing rationally-designed water-based organic semiconductors colloidal dispersions inks.
Water-based solutions play a key role in the realm of biology, chemistry, and more particularly, in energy-related fields such as photo and electro-catalysis and batteries. While aqueous batteries wer
To date we have developed a model framework for understanding the response of watershed fluxes to hydrologic forcings. A primary goal is to develop an improved mechanistic basis for interpreting disc
The application of Université Grenoble Alpes (UGA), Université Abdou Moumouni in Niamey (UAM) and the French National Research Institute for Sustainable Development (IRD) for a collaborative project f
The application of Université Grenoble Alpes (UGA) and Université Abdou Moumouni in Niamey (UAM) for a collaborative project focuses on the set up of a new field of study : « Water, Climate and Enviro