Explores the development of biological models with integrated monitoring, focusing on cell membranes, conducting polymer scaffolds, and bioelectronic devices.
Covers the general aspects of polymer materials, the 'Big 5' technical polymers, spider silk nanostructure, synthetic polymers, major application segments of plastics, and the activities of the Polymer Science department at EPFL.
Explores the fundamentals and applications of organic electronics, covering intramolecular electron delocalization, charge formation, challenges, and sustainability.
Explores the transformation of raw materials into commercial products in the chemical industry, focusing on the production of industrial organic chemicals and polymers.
Explores polymer synthesis basics, including step and radical chain polymerization, molecular weight control, copolymerization, and crosslinked polymers for microengineering.
Explores the flow behavior, models, viscosity, processing, and elastic properties of polymers, including thermoplasts, thermosets, elastomers, and 3D printing.
Explores the basics of polymer synthesis, focusing on controlling molecular weight through reaction parameters and strategies like stoichiometry and chain stoppers.
Introduces basic observables and simple models in polymer science, emphasizing the importance of reproducible measurements and discussing the concept of one-dimensional polymers.
Covers the selection of materials for large area manufacturing, focusing on inks and their properties, formulation, printing techniques, and curing methods.
