- Professor: Mounir Driss Mensi
- Professor: Emad Oveisi
- Professor: Pascal Alexander Schouwink
The course presents, with emphasis to fundamental physicochemical principles, the basic principles of electrochemical thermodynamics and physical and chemical kinetics as applied to electrochemical conversion systems: batteries, fuel and biofuel cells, electrolysers, and photoelectrochemical cells.
- Teacher: Nikolaos Vlachopoulos
- Teacher: Kevin Maik Jablonka
- Teacher: Luc Patiny
- Teacher: Berend Smit
PhD students in Chemistry will learn hands-on Research Data Management
(RDM) skills transferable to their research practices. They will
contextualize their research into RDM best practices (day 1), discover
appropriate tools (day 2) and work on a project (day 3) for the course
accreditation
- Professor: Alain Borel
- Professor: Mathilde Jeanne Panes
- Professor: Francesco Varrato
- Teacher: Kevin Maik Jablonka
- Teacher: Luc Patiny
The goal of this course is to provide an overview on recent developments
in the design and synthesis of fluorescent and bioluminescent probes
for applications in basic research and medicine. Through the discussion
of recently published advances, general design principles will be
reviewed
- Teacher: Kai Johnsson
Summary
This course will have three components: Molecular Simulation, Electronic Laboratory Notebooks, and Machine learning. The focus of the course is applications to microporous materials (metal organic frameworks, zeolites, covalent organic frameworks) and is aimed at non-computational chemists.- Teacher: Christopher Patrick Ireland
- Teacher: Kevin Maik Jablonka
- Teacher: Fatma Pelin Kinik
- Teacher: Sauradeep Majumdar
- Teacher: Seyedmohamad Moosavi
- Teacher: Elias Moubarak
- Teacher: Luc Patiny
- Teacher: Berend Smit
- Teacher: Christoph Leopold Talirz
- Teacher: Aliaksandr Yakutovich
- Professor: Vladimir Katanaev
- Professor: Stephan Beat Kellenberger
- Professor: Xile Hu
- Professor: Jérôme Waser
The goal is to provide students with a complete overview of the principles and key applications of modern mass spectrometry and meet the current practical demand of EPFL researchers to improve structural analsis of molecules. Numerous instrumental aspects of mass spectrometry are described.
Content
The course program includes:
- Mass spectrometry basics (ionization techniques, mass analyszers and detectors) and applications
- Tandem mass spectrometry and hyphenation with separation (UPLC and GC) systems
- Fragmentation mechanisms/techniques and structural analsis for identification of compounds
- Fourier-Transform Mass spectrometry (Orbitrap and ICR mass analyzers)
- Quantification (absolute and relative) methods with low resolution (triple quadrupole) and high-resolution (QTOF and Orbitrap) instruments
- Analysis of biomolecules such as bottom-up and top-down MS for peptide/protein analysis, analysis of binding sites of metallated-ligands on peptides…
- Open-source tools for Advanced analysis of mass spectra
- Proteomics, lipidomics and metabolomics fields
The course includes practical work in mass spectrometry that will be given in the Mass Spectrometry Service Facility of ISIC (SSMI, SB, EPFL)
- Teacher: Natalia Gasilova
- Teacher: Laure Menin
- Teacher: Daniel Ortiz Trujillo
- Teacher: Luc Patiny
- Teacher: Francisco Sepulveda
