Unité pédagogique
Derniere édition le: 12/01/2024
ModifierThe first part of the course is dedicated to the principle of electrochemical energy storage for flexible microelectronics. It will be presented recent progress achieved in the field of Li-ion microbatteries. The principles will be explained in terms of basic electrochemistry and thermodynamics. The relationship between properties at the atomic level with the performance of the power sources will be highlighted. Particularly, an insight into the use of nanostructured materials to improve the storage capacity, rate capability, and cyclability will be given. The second part of the course is dedicated to the microfabrication processes. It will be given by 3 foreign professors from renowned universities It will be presented recent progress achieved in the field of microtechnologies (high resolution patterning techniques, self-assembly processes, atomic layer deposition techniques, etc.). Particularly, an insight into micropatterned surfaces will be given for modern applications including sensors, biosensors, energy production and storage systems, lab-on-a-chip, smart devices...
2 credits
A la fin de l’unité pédagogique, l’élève sera capable de : | Niveau de taxonomie | Priorité |
---|---|---|
Fundamental in electrochemistry | 1. Connaître | Essentiel |
Principle and applications of microbatteries | 2. Comprendre | Essentiel |
Fundamental in materials science | 1. Connaître | Essentiel |
Principle and applications of micropatterned surfaces | 2. Comprendre | Essentiel |
Basic knowledge in chemistry | 1. Connaître | Essentiel |
Part de l'évaluation individuelle | Part de l'évaluation collective | ||||
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Examen sur table : | 100 | % | Livrable(s) de projet : | % | |
Examen oral individuel : | 0 | % | Exposé collectif : | % | |
Exposé individuel : | 0 | % | Exercice pratique collectif : | % | |
Exercice pratique individuel : | 0 | % | Rapport collectif : | % | |
Rapport individuel : | 0 | % | |||
Autre(s) : % |
Type d’activité pédagogique : | Contenu, séquencement et organisation |
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Magistral course | 1. Thermodynamic and kinetics of redox reactions 2. Electrochemical analysis techniques for batteries 3. Microbatteries: design, fabrication, and characterization 4. Applications of micropower sources in flexible electronics |
Magistral course | 1. Lithographic techniques 2. Self-assembly processes 3. Thin-film technologies 4. Applications: sensors, biosensors, energy,… |