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Central to the research of Joost Frenken is the fundamental understanding of the dynamic aspects of surfaces and interfaces and their role in relevant, natural or industrial processes under practical conditions. Topics of interest include surface diffusion, crystal growth (e.g. graphene), surface phase transitions, catalysis, and friction. For tailor-made measurements in each of these areas, Frenken’s research group has developed a variety of special-purpose scanning probe microscopes as well as dedicated instrumentation for surface x-ray diffraction.
In addition to regular research grants, Frenken has been the recipient of several awards and prestigious research grants. In 1985, he won the Nottingham Prize (45thPEC meeting, Milwaukee), in 1996 he was awarded a “Pionier” personal research grant from the Netherlands Organization for Scientific Research (NWO) in combination with an NWO-Groot large investment grant for the development of advanced scanning probe microscopy. In 2004, Frenken was the recipient of the Science Prize of IUVSTA (International Union for Vacuum Science, Technique and Applications) ‘for his pioneering work in the development and application of scanning probe microscopy to study various dynamical processes at surfaces’, in 2007 he received the Jacob Kistemaker-Prijs (triennial, Dutch physics award)‘for the development of and research into dynamical scanning tunneling microscopy under extreme conditions and for making this technique of use in chemistry and biology’, in 2010 he received an Advanced Grant from the European Research Council (ERC) for a research program on Science F(r)iction.He was the recipient of the 2012 FOM-Valorization Prize (Dutch award for valorization of basic research in physics). Frenken was co-applicant of the 10-year NWO-Gravitation program Frontiers of NanoScience (NanoFront) that was awarded in 2012 to the universities of Delft and Leiden. In 2017 Frenken was awarded the Innovation in Materials Characterization Award of the Materials Research Society (MRS) ‘for the development, application and commercialization of high-speed, temperature-controlled, in-situ scanning probe microscopy, leading to key insights in the structure, dynamics and chemistry of surfaces and interfaces.’
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Proceedings of the National Academy of Sciences of the United States of Americano. 49 (2019): 24386-24387
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