Unité pédagogique
Derniere édition le: 12/01/2024
ModifierElectronic devices have evolved from rigid, planar, and packaged formats into highly flexible, curvilinear and unpackaged physical designs. Rapid development of soft/stretchable inorganic/organic electronics, wireless communication modules, biosensors, and soft encapsulating substrates underlies this ascension in recent years. As a result, we have observed advances in system level mechanics with implications for emerging biomedical devices, human-machine interface designs, e-skins, prosthetics, surgical/nonsurgical robotics, plastronics and flexible optical instruments for imaging and telecommunication. After more than two decades of academic and industry research, this new class of electronics is poised to have commercial impact. During this class, we will detail the different fabrication techniques, characterization and applications of this new kind of electronic devices.
The courses are composed of two sections:
1. Soft and Stretchable electronics: Challenges, Applications and Future Directions (by Prof. Ramuz)
2. Organic electronics (by Prof. Sanaur)
2 credits
A la fin de l’unité pédagogique, l’élève sera capable de : | Niveau de taxonomie | Priorité |
---|---|---|
Solid-state physics | 2. Comprendre | Essentiel |
Semiconductors devices | 1. Connaître | Essentiel |
Knowledge of basic electronic components (transistor; LED, photodiode, c | 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 : | 0 | % |
Examen oral individuel : | 0 | % | Exposé collectif : | 0 | % |
Exposé individuel : | 0 | % | Exercice pratique collectif : | 0 | % |
Exercice pratique individuel : | 0 | % | Rapport collectif : | 0 | % |
Rapport individuel : | 0 | % | |||
Autre(s) : % |
Type d’activité pédagogique : | Contenu, séquencement et organisation |
---|---|
Magistral course | 1. Mechanical analysis of substrates and metallic interconnections 2. Design of stretchable substrates 3. Applications and futures directions |
Magistral course | 1. Flexible & printed electronics: state of the art 2. Electronic properties of pi-conjugated materials 3; Physics of organic electronics devices (OLEDs, OPV, OTFTs, EGOFETs, OECTs, …) |