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for battery electrodes), and potential key role in superlubrication. We will use a range of modelling techniques such as density functional theory, xTB, and potentially machine learning approaches. The project
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. New chemistries based on divalent metal ions, such as Mg(II), Ca(II), or Zn(II), are being explored for post-Li rechargeable batteries due to the abundance and low cost of these elements, as
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used batteries of standardised tests assessing general motor skills [6,7]. However, these batteries have proved insufficient to determine the origin of the dysfunctions. Other studies focusing on a
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as part of a collaborative project under the PEPR Batteries program (France 2030), involving 4 PhD theses in 4 national laboratories, all working closely together. This thesis will be coupled with
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insertion materials, new Li reactivity mechanisms, the mastering of interfaces, and the exploration of other chemistries beyond Li-ion (such as Na-ion, solid state batteries…), as well as monitoring
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of industrial heat. SHIP4D is one of the projects of the SLEEN programme related to decarbonation of heat in industry. Materials and Li-ion batteries A lithium-ion battery is composed of five main components