MSE-360: Polymer science + TPIntroduction à la physique des polymères et aux liens entre structures chimiques et propriétés macroscopiques, avec accent sur la morphologie et le comportement thermomécanique. Méthodes de mise en œuvre, fournissant les bases nécessaires à la sélection des polymères dans un contexte industriel.
MICRO-722: 3D Printing with lightOptical aspects of 3D printing technology. This includes optical systems for scanning and excitation, photopolymers, glass and other photoactive materials, and optical components fabricated with 3D printing technology.
MSE-214: Mise en oeuvre des matériaux IIntroduction aux relations mise en œuvre-structures-propriétés des polymères, céramiques et métaux, fournissant les bases nécessaires à la sélection de matériaux et procédés pour la fabrication de composants en microtechnique.
MSE-437: Polymer chemistry and macromolecular engineeringKnow modern methods of polymer synthesis. Understand how parameters, which determine polymer structure and properties, such as molecular weight, molecular weight distribution, topology, microstructure can be controlled by proper choice of polymerization method and optimization of reaction condition
BIOENG-455: Computational cell biologyComputer modelling is increasingly used to study dynamic phenomena in cell biology. This course shows how to identify common mathematical features in cell biological mechanisms, and become proficient in selecting numerical algorithms to model them and predict their behaviour.
MSE-425: Soft matterThe first part of the course is devoted to the self-assembly of molecules. In the second part we discuss basic physical chemical principles of polymers in solutions, at interfaces, and in bulk. Finally, we look at colloids and emulsions.
BIO-244: Physics of the cellLiving organisms evolve in a physical world: their cells respond to mechanics, electricity and light. In this course, we will describe the behavior and function of cells using physical principles.
MSE-421: Statistical mechanicsThis course presents an introduction to statistical mechanics geared towards materials scientists. The concepts of macroscopic thermodynamics will be related to a microscopic picture and a statistical interpretation. Lectures and exercises will be complemented with hands-on simulation projects.
