Spectroscopic Expression of the External Surface Sites of H-ZSM-5

The nature and spectroscopic expression of external surface sites of zeolites, in particular ZSM-5, is a long-debated question. Herein, we use three cutting-edge techniques: Fourier-transform infrared spectroscopy (FTIR) with Fourier self-deconvolution (FSD), high magnetic field proton NMR spectroscopy under fast magic-angle spinning (MAS) and periodic boundary Density Functional Theory (DFT) calculations to study external surface models and analyze the effect of crystallite size. This provides an unequaled description of the various kinds of hydroxyl groups and of their proximities. The hydrogen-bond donor, acceptor or isolated nature of the hydroxyls results in distinct signals both in FTIR and NMR spectra, but the peak assignment is not the same from one technique to the other when the chemical nature of the hydroxyl changes. Bridging Si-(OH)-Al groups and Al-(H2O) lead to overlapping signals in one-dimensional H-1 MAS NMR, whereas their contributions are strongly different in FTIR spectra. However, quantification and proximity assessment could only be obtained by H-1 MAS NMR. With DFT, we confirm previous assignments for silanols and Si-(OH)-AI bridging OH groups. Other signals (between 3750 and 3600 cm(-1), and between 1 and 4 ppm) are not only assigned to extra-framework species (which we confirm with dedicated models), but also enclose the signature of sites exposed at the external surface of ZSM-5. In particular, Al-(H2O) species (similar to 3665 cm(-1); 3.8, 2.6 ppm) and silanol-Al (similar to 3740, 3720, 3665 cm(-1); 2.6, 2.2 ppm) contribute to several features depending on their environment. mu(1)-Al-OH are also present at the external surface in low amount, with a 3780 cm(-1) signal in IR, and weak signals in the 0-2 ppm interval in H-1 MAS NMR.

Automated summary

This study investigates the nature and spectroscopic expression of external surface sites of zeolites, particularly ZSM-5, using advanced techniques including FTIR with FSD, high magnetic field proton NMR under MAS, and periodic boundary DFT calculations. Various hydroxyl groups are analyzed in detail, with distinct signals observed in FTIR and NMR spectra. Different contributions of bridging Si-(OH)-Al groups and Al-(H2O) are identified in one-dimensional H-1 MAS NMR versus FTIR spectra. Furthermore, extra-framework species exposed at the external surface of ZSM-5 are characterized by specific signals in both FTIR and NMR, providing valuable insights into the surface properties.