Urs von StockarOriginaire de Zurich, Urs von Stockar est né en1942. Ingénieur chimiste diplômé de l'EPFZ en 1967, il y est ensuite assistant au Laboratoire de chimie technique et, en 1973, soutient sa thèse couronnée par la médaille d'argent de l'EPFZ.
De 1973 à 1976, il travaille au département de génie chimique de l'Université de Californie. Il y enseigne et participe au développement d'un procédé technique pour la conversion biologique de la cellulose en alcool.
En 1977, il est ingénieur chimiste chez Ciba-Geigy. Fin 1977 il est nommé professeur extraordinaire à l'EPFL. Il dirige l'Institut de génie chimique en 1978/79 et en 1989/90. Il est professeur ordinaire en 1982. En 1982/83 et 1993/95, il dirige le Département de chimie. Son enseignement et sa recherche traitent des opérations de transfert de masse et de la biotechnologie, il s'intéresse également aux questions de bioénergétique et de biothermodynamique. Collaborant avec l'UNIL et l'ISREC, son équipe développe des procédés de fabrication d'anticorps monoclônaux spéciaux, capables de protéger les muqueuses humaines. En 1990 il est nommé professeur associé à l'Université de Genève. Il représente la Suisse dans un groupe d'experts de la Fédération européenne de biotechnologie. Après avoir siégé pendant plusieurs années dans son Comité de direction, il a été nommé président de la Fédération Européenne de Biotechnologie pour la période 1996-97. Depuis 1991, il dirige le Comité de coordination suisse pour la biotechnologie.
Diploma in Chemical Eng.-1967-ETHZ, CH
Ph.D.-1972-ETHZ, CH
Postdoc. Fellow-1973-76-Univ. of California, Berkeley, US
Jürgen BruggerI am a Professor of Microengineering and co-affiliated to Materials Science. Before joining EPFL I was at the MESA Research Institute of Nanotechnology at the University of Twente in the Netherlands, at the IBM Zurich Research Laboratory, and at the Hitachi Central Research Laboratory, in Tokyo, Japan. I received a Master in Physical-Electronics and a PhD degree from Neuchâtel University, Switzerland. Research in my laboratory focuses on various aspects of MEMS and Nanotechnology. My group contributes to the field at the fundamental level as well as in technological development, as demonstrated by the start-ups that spun off from the lab. In our research, key competences are in micro/nanofabrication, additive micro-manufacturing, new materials for MEMS, increasingly for wearable and biomedical applications. Together with my students and colleagues we published over 200 peer-refereed papers and I had the pleasure to supervise over 25 PhD students. Former students and postdocs have been successful in receiving awards and starting their own scientific careers. I am honoured for the appointment in 2016 as Fellow of the IEEE “For contributions to micro and nano manufacturing technology”. In 2017 my lab was awarded an ERC AdvG in the field of advanced micro-manufacturing.
Jean-Philippe AnsermetJean-Philippe Ansermet was born March 1, 1957 in Lausanne (legal origin Vaumarcus, NE). He obtained a diploma as physics engineer of EPFL in 1980. He went on to get a PhD from the University of Illinois at Urbana-Champaign where, from 1985 to 1987, he persued as post-doc with Prof. Slichter his research on catalysis by solid state NMR studies of molecules bound to the surface of catalysts. From 1987 to 1992 he worked at the materials research center of Ciba-Geigy, on polymers for microelectronics, composites, dielectrics and organic charge transfer complexes. In March 1992, as professor of experimental physics, he developed a laboratory on the theme of nanostructured materials and turned full professor in 1995. Since 1992, he teaches classical mechanics, first to future engineering students, since 2004 to physics majors. Since 2000, he teaches thermodynamics also, to the same group of students. He offers a graduate course in spintronics, and another on spin dynamics. His research activities concern the fabrication and properties of magnetic nanostructures produced by electrodeposition. His involvement since the early days of spintronics have allowed him to gain recognition for his work on giant magnetoresistance (CPP-GMR), magnetic relaxation of single nanostructures, and was among the leading groups demonstrating magnetization reversal by spin-polarized currents. Furthermore, his group uses nuclear magnetic resonance , on the one hand as means of investigation of surfaces and electrodes, on the other hand, as a local probe of the electronic properties of complex ferromagnetic oxides.
