Andreï Nossov scite author profile

The metal-organic framework MIL-53 exhibits a structural transition between two possible porous structures, so-called large-pore (lp) and narrow-pore (np) forms, depending on the temperature or when guest molecules are adsorbed. (129)Xe NMR has been used to study the lp --> np transition induced by the adsorption of xenon as revealed by the adsorption isotherms. The NMR spectra show that the two structures, characterized by two distinct lines, coexist for xenon pressures above 5 x 10(4) Pa at room temperature, but a complete transformation is achieved when the temperature is decreased. An original interpretation of the NMR results allowed us to quantify the rate of the structural transformation. In particular, at room temperature, we have shown that 28% of the channels remain open. Two possible interpretations of the hysteresis observed in the chemical shift variation versus xenon pressure are proposed.

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Xenon Capture on Silver-Loaded Zeolites: Characterization of Very Strong Adsorption Sites

Daniel

Elbaraoui

Aguado

et al. 2013

J. Phys. Chem. C

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INGENIERIE+SAG:YSC:DFAThe number and strength of adsorption sites for Xe in silver-modified zeolites are estimated from isotherm measurements at various temperatures over a broad range of pressure (from 1 ppm to atmospheric pressure). Fully and partially exchanged silver zeolites were synthesized starting from Na-ZSM-5(25), Na-ZSM-5(40), Na-Beta, NaX, and NaY. We have discovered that silver-modified zeolites may present one or two distinct adsorption sites depending on the nature of the material and silver loadings. The strongest adsorption sites are characterized by isosteric heat of adsorption in the order of -40 to -50 kJ.mol(-1). For Pentasil-type zeolites, we observe a linear 2:1 correlation between the total amount of silver and the number of strong sites. The highest concentration of strong sites is found for fully silver exchanged ZSM-5 (5.7 X 10(-4) mol/g), which presents the largest silver content for Pentasil-type zeolite. The equilibrium constant of Ag-ZSM-5 at low pressure is about 50 times larger than that of AgX. Qualitative correlations were established between Xe adsorption isotherms and Xe NMR signals. We show that Xe NMR could be used as a quantitative method for the characterization of the strength and of the number of strong Xe adsorption sites on silver-exchanged zeolites. The numbers of strong adsorption sites responsible for the Xe adsorption at 10-1000 ppm can be determined by the length of the plateau observed at low Xe uptake. In practice, our findings give guidelines for the discovery and optimization of silver-loaded zeolites for the capture of Xe at ppm levels. It appears that the amount of silver is a key parameter. Silver-modified ZSM-5 shows adsorption capacities 2-3 orders of magnitude larger than currently applied adsorbents for atmospheric Xe capture

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Andreï Nossov

Breathing Transitions in MIL‐53(Al) Metal–Organic Framework Upon Xenon Adsorption

¹²⁹Xe NMR Study of the Framework Flexibility of the Porous Hybrid MIL-53(Al)

Xenon Capture on Silver-Loaded Zeolites: Characterization of Very Strong Adsorption Sites

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Andreï Nossov

Breathing Transitions in MIL‐53(Al) Metal–Organic Framework Upon Xenon Adsorption

129Xe NMR Study of the Framework Flexibility of the Porous Hybrid MIL-53(Al)

Xenon Capture on Silver-Loaded Zeolites: Characterization of Very Strong Adsorption Sites

Contact Info

Product

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¹²⁹Xe NMR Study of the Framework Flexibility of the Porous Hybrid MIL-53(Al)