G. Catana et al., Relating structure and chemical composition with Lewis acidity in zeolites: A spectroscopic study with probe molecules, J PHYS CH B, 105(21), 2001, pp. 4904-4911
FTIR and EPR of adsorbed probe molecules were used to study Lewis acid site
s in FAU and MFI zeolites with different nonframework Al content, infrared
spectra of adsorbed CO at low temperatures give information about all types
of sites. The absorption bands were assigned to CO fixed on Bronsted sites
, cations, and true Lewis acid sites with different strengths. The frequenc
y shifts and the relative intensities of these peaks were correlated with t
he structure type and the nonframework Al amount. In contrast, EPR of adsor
bed NO is probing only the sites strong enough to quench the orbital magnet
ic moment of NO molecule. However, the method can provide an estimation of
the strength of the detected Lewis acid sites, via the g, parameter. A corr
elation was established between the amount of nonframework Al and the spin
concentrations of adsorbed NO. These absolute concentrations are lower than
the expected number of Lewis acid sites. Several methods were proposed for
creating Lewis acid sites in a controlled way. Among them, alumination and
mild steaming were the most efficient, leading to well-distributed nonfram
ework Al species, which act as strong Lewis acid sites. Despite its high no
nframework Al content, the severely steamed zeolite Y has weak sites, only
partially accessible for probe molecules, such as CO and NO.