After graduating from the Imperial College of Science and Technology in London in 1986, Lyndon Emsley completed a PhD at the Université de Lausanne in 1991 doing NMR spectroscopy of solutions with Geoffrey Bodenhausen. He then moved to the University of California Berkeley as a Fellow of the Miller Institute for basic Research in Science, working with Alex Pines, where he was introduced to solid-state NMR.
In 1993 he moved the French National Laboratory for Atomic Energy Research in Grenoble, and in 1994 he was appointed to a Professorship at the Ecole normale supérieure in Lyon. He was Head of the Experimental Chemistry Laboratory from 1999 to 2002, and Head of the Chemistry Department from 2006 to 2012. He became a member of the Institut Universitaire de France in 2002. In 2003 he was made the project leader for the creation of a European Laboratory for Very High Field NMR, which was completed in 2008, with the delivery of the worlds highest field high-resolution NMR spectrometer, operating at 1 GHz.
He moved to the EPFL and became a Professor of Physical Chemistry in June 2014 and Head of the Laboratoire de RMN of the ISIC at the EPFL.
He has received a series of awards and honors, including the CNRS Silver Medal in Chemistry in 2005, the EAS Award for Outstanding Achievement in Magnetic Resonance in 2009, the 2010 Luigi Sacconi Medal of the Italian Chemical Society, the 2012 AMPERE Prize, the Grand Prix Charles-Léopold Meyer de lAcadémie des Sciences, and the 2015 Bourke Award of the Royal Society of Chemistry.
He is a Fellow of the International Society of Magnetic Resonance, an Honorary Member of the National Magnetic Resonance Society (NMRS) of India, and a Member of the Academia Europaea.
His research centres on the development of new NMR spectroscopy experiments to determine the atomic-level structure and dynamics of complex materials and molecular systems, to solve a range of problems across disciplines.
Enseignement & Phd
- Chemistry and Chemical Engineering,
- Doctoral Program in Chemistry and Chemical Engineering
Principes de l'imagerie par résonance magnétique (IRM) et ses principales applications à l'imagérie médicale. Principes de la RMN multidimensionnelle moderne et application aux biomolécules et matériaux. Principes d'Hypérpolariastion.
Principes et applications de la résonance magnétique nucléaire moderne. Celle-ci est devenue l'un des moyens les plus puissants pour déterminer la structure de la matière sous toutes ses formes, que ce soit en phase solide, liquide ou gazeuse, in vitro ou...
The goal is to give a sound theoretical and practical foundation in NMR for various applications in research. PhD students and post-docs who have followed the course successfully should be able to perform modern multi-dimensional NMR experiments independe...