Found 7 relevant results in 2.80s where lecturer="Robin Schäublin"
Materials Science I
Materialwissenschaft I
Basic concepts of metal physics and ceramics, plus their related technologies.
The course focuses on the fundamental understanding and hands-on knowledge of analytical Transmission Electron Microscopy (ATEM) techniques: electron dispersive X-ray analysis (EDX), energy filtered TEM and electron energy loss spectroscopy (EELS). The lectures will be followed by demonstrations and acquisition sessions TEM instruments.The lectures on statistical treatment of raw data sets and on
In this course, students are introduced to advanced electron microscopy techniques required to characterize a wide range of materials from the sub-micron to the atomic scale.With a combination of lectures, practical sessions on the microscopes and data analysis session, the student learn a wide of techniques including Electron Energy Loss Spectroscopy (EELS). Students learn through examples how
Practical work on TEM, SEM, FIB and APTtreatment of typical problemsdata analysis, writing of a report
This advanced course on High Resolution Transmission Electron Microscopy (HRTEM) provides lectures focused on HRTEM and HRSTEM imaging principles, related data analysis and simulation and phase restoration methods.
Physical properties and fracture mechanics of brittle materials.Introduction to polymers.
The aim of the course is to provide a theoretical background to phase transformations and the constitution of microstructures. This includes the thermodynamic basis of phase equilibria, diffusional and difussionless transformations, properties of surfaces and interfaces, and the understanding of how through variations of processing conditions a material with specific properties can be tailored.