Through measurement of Cu2+ species via electron paramagnetic resonance (EP
R) we detected changes in the distribution of Cun+ sites in Cu-ZSM-5 sample
s used in the selective catalytic reduction of NO with C3H8 in the presence
of H2O at 673 K. In samples used under dry or wet operation for short peri
ods of time, Cu2+ species were evenly distributed between square planar and
square pyramidal environments. Operation under wet conditions for periods
of the order of tens of hours caused a third Cu2+ species to be formed, pre
sumably located in a recessed location in the zeolite. At the same time, ir
reversible deactivation was manifest, suggesting an association between tho
se events. Neither structural changes nor dealumination of the zeolite were
detected in our studies, indicating that deactivation was caused only by c
hanges in the distribution of Cun+ sites. (C) 2000 Elsevier Science B.V. Al
l rights reserved.