| Abstract
| - A new electron spin resonance (ESR) method to identify incorporation of transition metals into theframework of zeolite molecular sieves is reported. A novel niobium silicate molecular sieve of MFI topology,designated here as NbS-1, is synthesized hydrothermally and characterized by ESR and other physical methodssuch as X-ray diffraction, thermogravimetric analysis, scanning electron microscopy, electron microprobeanalysis, surface area measurements, and 29Si MAS NMR, UV−visible, FTIR, and Raman spectroscopies.Substitution of niobium into the framework has been established by these various methods. γ-Irradiation ofactivated NbS-1 shows by ESR two radiation-induced hole centers (V centers) located on Si−O−Si and Nb−O−Si units of the framework. The latter can be identified through a 10-line hyperfine structure from 93Nb (I= 9/2, 100% abundance) and provides convincing evidence for the incorporation of Nb into the silica framework.Nb(IV) ions are also formed as a consequence of radiation-induced reduction of Nb(V) associated with isolatedtetrahedral NbO4 units and exhibit an axially symmetric ESR signal with a 10-line hyperfine structure due to93Nb. Silicalite-1, on the other hand, shows radiation-induced hole centers located only on Si−O−Si units.
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