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at the Institute of Physics of Rennes. We are a highly collaborative and international team with more than 20 researchers working in the areas of ultrafast spectroscopy, crystallography and energy conversion. Our
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the IHM (Hydrogen-Matter Interaction) team and will collaborate closely with the MC (Modeling Calculation) group. The energy transition towards renewable energies has become a priority. However, their
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. Context: Gas turbine (GT) technology for power generation is and will be needed in the medium/long future to compensate for the intermittent output of renewable energy sources. GTs have been operated
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batteries and thus replace a CO2 emitting energy (combustion) by a renewable non-emitting energy. This process is divided into two steps: On the one hand, a thermal pre-treatment by pyrolysis, which is a
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for a reduced weight and volume. The tremendous success of these systems and the development of new large-scale applications (renewable energy storage, connected objects,...) require ongoing improvements
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importance to switch to efficient renewable energies such as solar, wind or geothermal, it is essential to consider the materials that are used in this new paradigm. In fact, most of the time only
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energies. To achieve this, the traditional combustion of carbon-based natural gas must be abandoned in favor of carbon-free fuels derived from renewable energies. ACHIEVE aims at developing the fundamental
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. In view of the inevitable climate change, the production of energy from sustainable and renewable resources is a major challenge of the coming decades. A significant amount of energy is received by
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, energy efficiency for sustainable development, renewable energies, particularly marine energies, and the industry of the future. The solutions proposed adopt a systems approach supported by original
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heat stream. However, WH-RECOLTE's basic knowledge can be extended to applications outside renewable energy research, such as temperature and chemical pollutant sensors. Thermoelectricity, the ability