Invited Paper NS+AS+BI+SP-WeM9
Catalytic Model Systems Studied by High-Resolution, Video-Rate Scanning Tunneling Microscopy

Wednesday, October 30, 2013, 10:40 am, Room 203 B

For decades single-crystal surfaces have been studied under ultra-high vacuum (UHV) conditions as model systems for elementary surface processes. This “surface science approach” has contributed substantially to our understanding of the processes involved in especially catalysis.

In this talk I will show how STM can reveal fundamental processes in relation to catalysis, and how we can extract quantitative information on surface diffusion of adatoms and molecules. We use time-resolved, high-resolution STM images/movies to understand diffusion of vacancies, interstitials and molecules, e.g. water molecules on oxide surfaces, sintering and diffusion of nanoclusters on oxide surfaces, diffusion of intermediate species, and to identify active sites and to determine new nanostructures with novel catalytic properties (see www.phys.au.dk/spm ). The atomic-scale information obtained may even lead to the design of new and improved catalysts in certain cases.