We present a density-functional theory based kinetic Monte Carlo study of CO
oxidation at the (111) facet of RuO2. We compare the detailed insight into
elementary processes, steady-state surface coverages and catalytic activity to
equivalent published simulation data for the frequently studied RuO2(110)
facet. Qualitative differences are identified in virtually every aspect ranging
from binding energetics over lateral interactions to the interplay of
elementary processes at the different active sites. Nevertheless, particularly
at technologically relevant elevated temperatures, near-ambient pressures and
near-stoichiometric feeds both facets exhibit almost identical catalytic
activity. These findings challenge the traditional definition of structure
sensitivity based on macroscopically observable turnover frequencies and allow
to scrutinize the applicability of structure sensitivity classifications
developed for metals to oxide catalysis.Comment: 15 pages, 5 figure