The redox behavior of Cu/ZSM-5 zeolites prepared by ion exchange from Cu2aqueous solutions has been followed by a variety of spectroscopic technique
s to provide a thorough picture of the so-called "self-reduction" of cupric
ions, which occurs upon dehydration of the hydrated system at various temp
eratures, and of the reverse process of reoxidation as well. Conflicting hy
potheses on both these processes are, in fact, present in the literature. T
he experimental techniques employed in this work are electron paramagnetic
resonance (EPR), IR, and optical spectroscopies, extended X-ray absorption
fine structure, and X-ray absorption near-edge structure. The early stages
of dehydration (from room temperature to about 470 K involve cupric ion mig
ration and formation of EPR silent moieties but no reduction to Cu+. The on
set of this latter phenomenon starts at 470 K and, in the range 470-670 K,
involves the majority of copper ions present in the system, Rehydration of
Cu+-containing samples does not cause direct Cu+ oxidation to Cu2+ but favo
r this latter process when O-2 is used as oxidant. Oxidation of Cu+ to Cu2 by molecular oxygen, in fact, does not take place at room temperature if O
-2 is contacted with the dehydrated material but easily occurs when oxygen
is adsorbed on rehydrated samples at the same temperature.