Abstract
Via conversion of 13C-enriched methanol and applying a new stopped-flow protocol, the Brønsted acid sites (SiOHAl groups) of a calcined zeolite H–Y were highly covered by surface methoxy groups (SiOCH 3Al). These methoxy groups ( δ 13C=56.6 ppm) were formed at bridging OH groups in the direct vicinity of framework aluminum atoms. The methylated zeolite Y was used to perform first 27Al spin-echo NMR investigations of the influence of surface methoxy groups on zeolitic framework aluminum atoms. The formation of methoxy groups on calcined zeolite H–Y was found to decrease the 27Al quadrupole coupling constant of framework aluminum atoms from 14.8±0.2 MHz (uncovered SiOHAl groups) to 12.8±0.2 MHz (SiOCH 3Al).
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